;;; bytevector.ms
;;; Copyright 1984-2016 Cisco Systems, Inc.
;;; 
;;; Licensed under the Apache License, Version 2.0 (the "License");
;;; you may not use this file except in compliance with the License.
;;; You may obtain a copy of the License at
;;; 
;;; http://www.apache.org/licenses/LICENSE-2.0
;;; 
;;; Unless required by applicable law or agreed to in writing, software
;;; distributed under the License is distributed on an "AS IS" BASIS,
;;; WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
;;; See the License for the specific language governing permissions and
;;; limitations under the License.

(mat native-endianness
 ; wrong argument count
  (error? (native-endianness 'big))

  (and (memq (native-endianness) '(big little)) #t)
  (eq? (native-endianness)
       (case (machine-type)
         [(i3le ti3le i3nt ti3nt a6nt ta6nt i3ob ti3ob i3fb ti3fb i3nb ti3nb i3osx ti3osx a6le ta6le a6nb ta6nb a6osx ta6osx a6fb ta6fb a6ob ta6ob a6s2 ta6s2 i3s2 ti3s2 i3qnx ti3qnx arm32le tarm32le) 'little]
         [(ppc32le tppc32le) 'big]
         [else (errorf #f "unrecognized machine type")]))
)

(mat endianness
 ; invalid endianness
  (error? (endianness spam))
  (error? (endianness 'big))
  (error? (endianness "little"))

 ; invalid syntax
  (error? (endianness))
  (error? (endianness . big))
  (error? (endianness big little))

  (eq? (endianness big) 'big)
  (eq? (endianness little) 'little)
  (eq? (let ([big 'large]) (endianness big)) 'big)
  (eq? (let ([little 'small]) (endianness little)) 'little)
)

(mat make-bytevector
 ; wrong argument count
  (error? (make-bytevector))
  (error? (make-bytevector 0 0 0))

 ; invalid size
  (error? (make-bytevector -1))
  (error? (make-bytevector -1 0))
  (error? (make-bytevector (+ (most-positive-fixnum) 1)))
  (error? (make-bytevector (+ (most-positive-fixnum) 1) -1))
  (error? (begin (make-bytevector 'a -1) #f))

 ; invalid fill
  (error? (make-bytevector 3 'a))
  (error? (make-bytevector 10 256))
  (error? (make-bytevector 10 -129))
  (error? (make-bytevector 10 (+ (most-positive-fixnum) 1)))
  (error? (begin (make-bytevector 10 (- (most-negative-fixnum) 1)) #f))

  (eqv? (bytevector-length (make-bytevector 10)) 10)
  (eqv? (let ([n 11]) (bytevector-length (make-bytevector n))) 11)
  (eqv? (bytevector-length (make-bytevector 100)) 100)
  (eqv? (bytevector-length (make-bytevector (+ 100 17))) 117)
  (eq? (make-bytevector 0) #vu8())
  (let ([x (make-bytevector 10)])
    (and (= (bytevector-length x) 10)
         (andmap fixnum? (bytevector->s8-list x))))
  (do ([n -128 (fx+ n 1)])
      ((fx= n 128) #t)
    (let ([v (make-bytevector 3)])
      (unless (and (fixnum? (bytevector-s8-ref v 0))
                   (fixnum? (bytevector-s8-ref v 1))
                   (fixnum? (bytevector-s8-ref v 2)))
        (errorf #f "wrong value for ~s" n))))
  (do ([q 10000 (fx- q 1)])
      ((fx= q 0) #t)
    (do ([n -128 (fx+ n 1)])
        ((fx= n 128) #t)
      (let ([v (make-bytevector 3 n)])
        (unless (and (eqv? (bytevector-s8-ref v 0) n)
                     (eqv? (bytevector-s8-ref v 1) n)
                     (eqv? (bytevector-s8-ref v 2) n))
          (errorf #f "wrong value for ~s" n)))))
  (do ([q 10000 (fx- q 1)])
      ((fx= q 0) #t)
    (do ([n 0 (fx+ n 1)])
        ((fx= n 255) #t)
      (let ([v (make-bytevector 3 n)])
        (unless (and (eqv? (bytevector-u8-ref v 0) n)
                     (eqv? (bytevector-u8-ref v 1) n)
                     (eqv? (bytevector-u8-ref v 2) n))
          (errorf #f "wrong value for ~s" n)))))
)

(mat bytevector
 ; invalid value
  (error? (bytevector 3 4 256))
  (error? (bytevector 3 4 -129))
  (error? (bytevector 3 4 500))
  (error? (bytevector 3 4 -500))
  (error? (bytevector 3 4 1e100))
  (error? (begin (bytevector 3 4 #e1e100) #f))

  (eqv? (bytevector) #vu8())
  (equal? (bytevector 7 7 7 7 7 7 7 7 7 7) (make-bytevector 10 7))
  (equal? (bytevector 2 2) (make-bytevector (- 4 2) (+ 1 1)))
  (eqv? (bytevector) (make-bytevector (- 4 4) (+ 1 1)))
  (eqv? (bytevector) (make-bytevector (- 4 4) (+ 1 1)))
  (equal? (bytevector 1) #vu8(1))
  (equal?
    (letrec-syntax ([z (syntax-rules ()
                         [(_) (list (bytevector))]
                         [(_ x ... y) (cons (bytevector x ... y) (z x ...))])])
      (z 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17))
    '(#vu8(1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17)
      #vu8(1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16)
      #vu8(1 2 3 4 5 6 7 8 9 10 11 12 13 14 15)
      #vu8(1 2 3 4 5 6 7 8 9 10 11 12 13 14)
      #vu8(1 2 3 4 5 6 7 8 9 10 11 12 13)
      #vu8(1 2 3 4 5 6 7 8 9 10 11 12)
      #vu8(1 2 3 4 5 6 7 8 9 10 11)
      #vu8(1 2 3 4 5 6 7 8 9 10)
      #vu8(1 2 3 4 5 6 7 8 9)
      #vu8(1 2 3 4 5 6 7 8)
      #vu8(1 2 3 4 5 6 7)
      #vu8(1 2 3 4 5 6)
      #vu8(1 2 3 4 5)
      #vu8(1 2 3 4)
      #vu8(1 2 3)
      #vu8(1 2)
      #vu8(1)
      #vu8()))
  (equal?
    (let ([a 1] [c 3] [d 4] [e 5] [f 6] [h 8] [k 11] [l 12] [p 16] [q 17])
      (letrec-syntax ([z (syntax-rules ()
                           [(_) (list (bytevector))]
                           [(_ x ... y) (cons (bytevector x ... y) (z x ...))])])
        (z a 2 c d e f 7 h 9 10 k l 13 14 15 p q)))
    '(#vu8(1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17)
      #vu8(1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16)
      #vu8(1 2 3 4 5 6 7 8 9 10 11 12 13 14 15)
      #vu8(1 2 3 4 5 6 7 8 9 10 11 12 13 14)
      #vu8(1 2 3 4 5 6 7 8 9 10 11 12 13)
      #vu8(1 2 3 4 5 6 7 8 9 10 11 12)
      #vu8(1 2 3 4 5 6 7 8 9 10 11)
      #vu8(1 2 3 4 5 6 7 8 9 10)
      #vu8(1 2 3 4 5 6 7 8 9)
      #vu8(1 2 3 4 5 6 7 8)
      #vu8(1 2 3 4 5 6 7)
      #vu8(1 2 3 4 5 6)
      #vu8(1 2 3 4 5)
      #vu8(1 2 3 4)
      #vu8(1 2 3)
      #vu8(1 2)
      #vu8(1)
      #vu8()))
  (equal? (apply bytevector (make-list 20000 #xc7))
          (u8-list->bytevector (make-list 20000 #xc7)))
  (let ([n0 1] [n1 -2] [n4 5])
    (let ([x (bytevector n0 n1 3 -4 n4)])
      (and (bytevector? x)
           (equal? (bytevector->s8-list x) '(1 -2 3 -4 5))
           (equal? (bytevector->u8-list x) '(1 254 3 252 5))
           (eqv? (bytevector-s8-ref x 0) 1)
           (eqv? (bytevector-u8-ref x 0) 1)
           (eqv? (bytevector-s8-ref x 1) -2)
           (eqv? (bytevector-u8-ref x 1) 254)
           (eqv? (bytevector-s8-ref x 2) 3)
           (eqv? (bytevector-u8-ref x 2) 3)
           (eqv? (bytevector-s8-ref x 3) -4)
           (eqv? (bytevector-u8-ref x 3) 252)
           (eqv? (bytevector-s8-ref x 4) 5)
           (eqv? (bytevector-u8-ref x 4) 5))))
)

(mat bytevector-syntax
  (eq? #vu8() '#vu8())
  (eq? '#0vu8() #vu8())
  (equal?
    '(#vu8(1 2 3) #3vu8(1 2 3) #6vu8(1 2 3))
    (list (bytevector 1 2 3) (bytevector 1 2 3) (bytevector 1 2 3 3 3 3)))
  (let ([x (with-input-from-string "#10vu8()" read)])
    (and (= (bytevector-length x) 10)
         (andmap fixnum? (bytevector->u8-list x))))
)

(mat bytevector-length
 ; wrong argument count
  (error? (bytevector-length))
  (error? (begin (bytevector-length #vu8() '#vu8()) #f))

 ; not a bytevector
  (error? (bytevector-length '(a b c)))
  (error? (begin (bytevector-length '(a b c)) #f))

  (eqv? (bytevector-length #vu8(3 252 5)) 3)
  (eqv? (bytevector-length '#100vu8(5 4 3)) 100)
  (eqv? (bytevector-length #vu8()) 0)
)

(mat $bytevector-ref-check?
  (let ([bv (make-bytevector 3)] [not-bv (make-fxvector 3)])
    (let ([i-1 -1] [i0 0] [i1 1] [i2 2] [i3 3] [ifalse #f] [ibig (+ (most-positive-fixnum) 1)])
      (and
        (not (#%$bytevector-ref-check? 8 not-bv i0))
        (not (#%$bytevector-ref-check? 8 bv ifalse))
        (not (#%$bytevector-ref-check? 8 bv i-1))
        (#%$bytevector-ref-check? 8 bv i0)
        (#%$bytevector-ref-check? 8 bv i1)
        (#%$bytevector-ref-check? 8 bv i2)
        (not (#%$bytevector-ref-check? 8 bv i3))
        (not (#%$bytevector-ref-check? 8 bv ibig)))))
  (let ([n 128])
    (let ([bv (make-bytevector n)] [not-bv (make-fxvector n)])
      (and
        (let ([i 0])
          (and (not (#%$bytevector-ref-check? 8 not-bv i))
               (not (#%$bytevector-ref-check? 16 not-bv i))
               (not (#%$bytevector-ref-check? 32 not-bv i))
               (not (#%$bytevector-ref-check? 64 not-bv i))))
        (let f ([i -1])
          (or (fx< i -8)
              (and (not (#%$bytevector-ref-check? 8 bv i))
                   (not (#%$bytevector-ref-check? 16 bv i))
                   (not (#%$bytevector-ref-check? 32 bv i))
                   (not (#%$bytevector-ref-check? 64 bv i))
                   (f (fx* i 2)))))
        (let f ([i 0])
          (or (fx= i n)
              (and (#%$bytevector-ref-check? 8 bv i)
                   (if (and (fx= (modulo i 2) 0) (fx<= (fx+ i 2) n))
                       (#%$bytevector-ref-check? 16 bv i)
                       (not (#%$bytevector-ref-check? 16 bv i)))
                   (if (and (fx= (modulo i 4) 0) (fx<= (fx+ i 4) n))
                       (#%$bytevector-ref-check? 32 bv i)
                       (not (#%$bytevector-ref-check? 32 bv i)))
                   (if (and (fx= (modulo i 8) 0) (fx<= (fx+ i 8) n))
                       (#%$bytevector-ref-check? 64 bv i)
                       (not (#%$bytevector-ref-check? 64 bv i)))
                   (f (fx+ i 1)))))
        (let ([i n])
          (not (#%$bytevector-ref-check? 8 bv i))
          (not (#%$bytevector-ref-check? 16 bv i))
          (not (#%$bytevector-ref-check? 32 bv i))
          (not (#%$bytevector-ref-check? 64 bv i)))
        (let ([i (+ (most-positive-fixnum) 1)])
          (not (#%$bytevector-ref-check? 8 bv i))
          (not (#%$bytevector-ref-check? 16 bv i))
          (not (#%$bytevector-ref-check? 32 bv i))
          (not (#%$bytevector-ref-check? 64 bv i))))))
)

(mat bytevector-s8-ref
 ; wrong argument count
  (error? (bytevector-s8-ref))
  (error? (bytevector-s8-ref #vu8(3 252 5)))
  (error? (begin (bytevector-s8-ref #vu8(3 252 5) 0 5) #f))

 ; not a bytevector
  (error? (bytevector-s8-ref '#(3 -4 5) 2))
  (error? (begin (bytevector-s8-ref '(3 -4 5) 2) #f))

 ; invalid index
  (error? (bytevector-s8-ref #vu8(3 252 5) 3))
  (error? (bytevector-s8-ref #vu8(3 252 5) -1))
  (error? (begin (bytevector-s8-ref #vu8(3 252 5) 'a) #f))

  (eqv? (bytevector-s8-ref #vu8(3 252 5) 0) 3)
  (eqv? (bytevector-s8-ref #vu8(3 252 5) 1) -4)
  (eqv? (bytevector-s8-ref #vu8(3 252 5) 2) 5)
  (do ([n -128 (fx+ n 1)])
      ((fx= n 128) #t)
    (unless (eqv? (bytevector-s8-ref (bytevector 15 n 35) 1) n)
      (errorf #f "wrong value for ~s" n)))
  (do ([n 128 (fx+ n 1)])
      ((fx= n 256) #t)
    (unless (eqv? (bytevector-s8-ref (bytevector 15 n 35) 1) (- n 256))
      (errorf #f "wrong value for ~s" n)))
)

(mat bytevector-u8-ref
 ; wrong argument count
  (error? (bytevector-u8-ref))
  (error? (bytevector-u8-ref #vu8(3 252 5)))
  (error? (begin (bytevector-u8-ref #vu8(3 252 5) 0 5) #f))

 ; not a bytevector
  (error? (bytevector-u8-ref '#(3 -4 5) 2))
  (error? (begin (bytevector-u8-ref '(3 -4 5) 2) #f))

 ; invalid index
  (error? (bytevector-u8-ref #vu8(3 252 5) 3))
  (error? (bytevector-u8-ref #vu8(3 252 5) -1))
  (error? (begin (bytevector-u8-ref #vu8(3 252 5) 'a) #f))

  (eqv? (bytevector-u8-ref #vu8(3 252 5) 0) 3)
  (eqv? (bytevector-u8-ref #vu8(3 252 5) 1) 252)
  (eqv? (bytevector-u8-ref #vu8(3 252 5) 2) 5)
  (do ([n -128 (fx+ n 1)])
      ((fx= n 0) #t)
    (unless (eqv? (bytevector-u8-ref (bytevector 15 n 35) 1) (+ 256 n))
      (errorf #f "wrong value for ~s" n)))
  (do ([n 0 (fx+ n 1)])
      ((fx= n 256) #t)
    (unless (eqv? (bytevector-u8-ref (bytevector 15 n 35) 1) n)
      (errorf #f "wrong value for ~s" n)))
)

(mat bytevector-s8-set!
  (begin
    (define $v1 (bytevector 3 4 5))
    (and (bytevector? $v1) (equal? $v1 #vu8(3 4 5))))

 ; wrong argument count
  (error? (bytevector-s8-set!))
  (error? (bytevector-s8-set! $v1))
  (error? (bytevector-s8-set! $v1 2))
  (error? (begin (bytevector-s8-set! $v1 2 3 4) #f))

 ; not a bytevector
  (error? (bytevector-s8-set! (list 3 4 5) 2 3))
  (error? (begin (bytevector-s8-set! (list 3 4 5) 2 3) #f))

 ; invalid index
  (error? (bytevector-s8-set! $v1 3 3))
  (error? (bytevector-s8-set! $v1 -1 3))
  (error? (begin (bytevector-s8-set! $v1 'a 3) #f))

 ; invalid value
  (error? (bytevector-s8-set! $v1 2 -129))
  (error? (bytevector-s8-set! $v1 2 128))
  (error? (begin (bytevector-s8-set! $v1 0 'd) #f))

 ; make sure no damage done
  (and (bytevector? $v1) (equal? $v1 #vu8(3 4 5)))

  (let ((v (bytevector 3 4 5)))
    (and (begin (bytevector-s8-set! v 0 33) (equal? v #vu8(33 4 5)))
         (begin (bytevector-s8-set! v 1 -44) (equal? v #vu8(33 212 5)))
         (begin (bytevector-s8-set! v 2 55) (equal? v #vu8(33 212 55)))))
  (let ([v (bytevector 3 4 5)])
    (do ([n -128 (fx+ n 1)])
        ((fx= n 128) #t)
      (bytevector-s8-set! v 1 n)
      (unless (and (eqv? (bytevector-s8-ref v 0) 3)
                   (eqv? (bytevector-s8-ref v 1) n)
                   (eqv? (bytevector-s8-ref v 2) 5))
        (errorf #f "wrong value for ~s" n))))
)

(mat bytevector-u8-set!
  (begin
    (define $v1 (bytevector 3 4 5))
    (and (bytevector? $v1) (equal? $v1 #vu8(3 4 5))))

 ; wrong argument count
  (error? (bytevector-u8-set!))
  (error? (bytevector-u8-set! $v1))
  (error? (bytevector-u8-set! $v1 2))
  (error? (begin (bytevector-u8-set! $v1 2 3 4) #f))

 ; not a bytevector
  (error? (bytevector-u8-set! (list 3 4 5) 2 3))
  (error? (begin (bytevector-u8-set! (list 3 4 5) 2 3) #f))

 ; invalid index
  (error? (bytevector-u8-set! $v1 3 3))
  (error? (bytevector-u8-set! $v1 -1 3))
  (error? (begin (bytevector-u8-set! $v1 'a 3) #f))

 ; invalid value
  (error? (bytevector-u8-set! $v1 2 -1))
  (error? (bytevector-u8-set! $v1 0 256))
  (error? (begin (bytevector-u8-set! $v1 0 'd) #f))

 ; make sure no damage done
  (and (bytevector? $v1) (equal? $v1 #vu8(3 4 5)))

  (let ((v (bytevector 3 4 5)))
    (and (begin (bytevector-u8-set! v 0 33) (equal? v #vu8(33 4 5)))
         (begin (bytevector-u8-set! v 1 128) (equal? v #vu8(33 128 5)))
         (begin (bytevector-u8-set! v 2 55) (equal? v #vu8(33 128 55)))))
  (let ([v (bytevector 3 4 5)])
    (do ([n 0 (fx+ n 1)])
        ((fx= n 256) #t)
      (bytevector-u8-set! v 1 n)
      (unless (and (eqv? (bytevector-u8-ref v 0) 3)
                   (eqv? (bytevector-u8-ref v 1) n)
                   (eqv? (bytevector-u8-ref v 2) 5))
        (errorf #f "wrong value for ~s" n))))
)

(module (big-endian->signed little-endian->signed native->signed
         big-endian->unsigned little-endian->unsigned native->unsigned)
  (define (signed n) (if (>= n 128) (- n 256) n))

  (define (big-endian->signed . args)
    (let f ([args (cdr args)] [a (signed (car args))])
      (if (null? args)
          a
          (f (cdr args) (logor (ash a 8) (car args))))))

  (define (little-endian->signed . args)
    (let f ([args args])
      (if (null? (cdr args))
          (signed (car args))
          (logor (ash (f (cdr args)) 8) (car args)))))

  (define (native->signed . args)
    (case (native-endianness)
      [(big) (apply big-endian->signed args)]
      [(little) (apply little-endian->signed args)]
      [else
       (errorf 'native->signed
         "unhandled endianness ~s"
         (native-endianness))]))

  (define (big-endian->unsigned . args)
    (let f ([args (cdr args)] [a (car args)])
      (if (null? args)
          a
          (f (cdr args) (logor (ash a 8) (car args))))))

  (define (little-endian->unsigned . args)
    (let f ([args args])
      (if (null? args)
          0
          (logor (ash (f (cdr args)) 8) (car args)))))

  (define (native->unsigned . args)
    (case (native-endianness)
      [(big) (apply big-endian->unsigned args)]
      [(little) (apply little-endian->unsigned args)]
      [else
       (errorf 'native->unsigned
         "unhandled endianness ~s"
         (native-endianness))])))

(mat bytevector-s16-native-ref
 ; wrong argument count
  (error? (bytevector-s16-native-ref))
  (error? (bytevector-s16-native-ref #vu8(3 252 5)))
  (error? (begin (bytevector-s16-native-ref #vu8(3 252 5) 0 0) #f))

 ; not a bytevector
  (error? (bytevector-s16-native-ref '#(3 252 5) 0))
  (error? (begin (bytevector-s16-native-ref '#(3 252 5) 0) #f))

 ; invalid index
  (error? (bytevector-s16-native-ref #vu8(3 252 5) -1))
  (error? (bytevector-s16-native-ref #vu8(3 252 5) 1))
  (error? (bytevector-s16-native-ref #vu8(3 252 5) 2))
  (error? (bytevector-s16-native-ref #vu8(3 252 5) 3))
  (error? (begin (bytevector-s16-native-ref #vu8(3 252 5) 4.0) #f))

  (eqv?
    (bytevector-s16-native-ref #vu8(3 252 5) 0)
    (native->signed 3 252))
  (equal?
    (let ([v #vu8(3 252 5 17 23 55 250 89 200 201 128)] [i 4])
      (list
        (bytevector-s16-native-ref v 0)
        (bytevector-s16-native-ref v 2)
        (bytevector-s16-native-ref v 4)
        (bytevector-s16-native-ref v i)
        (bytevector-s16-native-ref v 6)
        (bytevector-s16-native-ref v 8)))
    (list
      (native->signed 3 252)
      (native->signed 5 17)
      (native->signed 23 55)
      (native->signed 23 55)
      (native->signed 250 89)
      (native->signed 200 201)))

  (test-cp0-expansion eqv?
    '(bytevector-s16-native-ref #vu8(3 252 5) 0)
    (native->signed 3 252))
  (equal?
    ;; list doesn't get inlined, so take if off the front of the list
    (cdr (parameterize ([optimize-level 2] [enable-cp0 #t] [#%$suppress-primitive-inlining #f])
           (expand/optimize '(let ([v #vu8(3 252 5 17 23 55 250 89 200 201 128)] [i 4])
                               (list
                                 (bytevector-s16-native-ref v 0)
                                 (bytevector-s16-native-ref v 2)
                                 (bytevector-s16-native-ref v 4)
                                 (bytevector-s16-native-ref v i)
                                 (bytevector-s16-native-ref v 6)
                                 (bytevector-s16-native-ref v 8))))))
      (list
         (native->signed 3 252)
         (native->signed 5 17)
         (native->signed 23 55)
         (native->signed 23 55)
         (native->signed 250 89)
         (native->signed 200 201)))

  (do ([i 0 (fx+ i 1)])
      ((fx= i (expt 2 8)) #t)
    (do ([j 0 (fx+ j 1)])
        ((fx= j (expt 2 8)))
      (unless (eqv? (bytevector-s16-native-ref (bytevector i j) 0)
                    (native->signed i j))
        (errorf #f "failed for ~s and ~s" i j))))
)

(mat bytevector-u16-native-ref
 ; wrong argument count
  (error? (bytevector-u16-native-ref))
  (error? (bytevector-u16-native-ref #vu8(3 252 5)))
  (error? (begin (bytevector-u16-native-ref #vu8(3 252 5) 0 0) #f))

 ; not a bytevector
  (error? (bytevector-u16-native-ref '#(3 252 5) 0))
  (error? (begin (bytevector-u16-native-ref '#(3 252 5) 0) #f))

 ; invalid index
  (error? (bytevector-u16-native-ref #vu8(3 252 5) -1))
  (error? (bytevector-u16-native-ref #vu8(3 252 5) 1))
  (error? (bytevector-u16-native-ref #vu8(3 252 5) 2))
  (error? (bytevector-u16-native-ref #vu8(3 252 5) 3))
  (error? (begin (bytevector-u16-native-ref #vu8(3 252 5) 4.0) #f))

  (eqv?
    (bytevector-u16-native-ref #vu8(3 252 5) 0)
    (native->unsigned 3 252))
  (equal?
    (let ([v #vu8(3 252 5 17 23 55 250 89 200 201 128)] [i 4])
      (list
        (bytevector-u16-native-ref v 0)
        (bytevector-u16-native-ref v 2)
        (bytevector-u16-native-ref v 4)
        (bytevector-u16-native-ref v i)
        (bytevector-u16-native-ref v 6)
        (bytevector-u16-native-ref v 8)))
    (list
      (native->unsigned 3 252)
      (native->unsigned 5 17)
      (native->unsigned 23 55)
      (native->unsigned 23 55)
      (native->unsigned 250 89)
      (native->unsigned 200 201)))

  (test-cp0-expansion eqv?
    '(bytevector-u16-native-ref #vu8(3 252 5) 0)
    (native->unsigned 3 252))
  (equal?
    ;; list doesn't get inlined, so take if off the front of the list
    (cdr (parameterize ([optimize-level 2] [enable-cp0 #t] [#%$suppress-primitive-inlining #f])
           (expand/optimize '(let ([v #vu8(3 252 5 17 23 55 250 89 200 201 128)] [i 4])
                               (list
                                 (bytevector-u16-native-ref v 0)
                                 (bytevector-u16-native-ref v 2)
                                 (bytevector-u16-native-ref v 4)
                                 (bytevector-u16-native-ref v i)
                                 (bytevector-u16-native-ref v 6)
                                 (bytevector-u16-native-ref v 8))))))
      (list
         (native->unsigned 3 252)
         (native->unsigned 5 17)
         (native->unsigned 23 55)
         (native->unsigned 23 55)
         (native->unsigned 250 89)
         (native->unsigned 200 201)))

  (do ([i 0 (fx+ i 1)])
      ((fx= i (expt 2 8)) #t)
    (do ([j 0 (fx+ j 1)])
        ((fx= j (expt 2 8)))
      (unless (eqv? (bytevector-u16-native-ref (bytevector i j) 0)
                    (native->unsigned i j))
        (errorf #f "failed for ~s and ~s" i j))))
)

(mat bytevector-s16-native-set!
  (begin
    (define $v1 (make-bytevector 11 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-s16-native-set!))
  (error? (bytevector-s16-native-set! $v1))
  (error? (bytevector-s16-native-set! $v1 0))
  (error? (begin (bytevector-s16-native-set! $v1 0 0 15) #f))

 ; not a bytevector
  (error? (bytevector-s16-native-set! (make-vector 10) 0 0))
  (error? (begin (bytevector-s16-native-set! (make-vector 10) 0 0) #f))

 ; invalid index
  (error? (bytevector-s16-native-set! $v1 -1 0))
  (error? (bytevector-s16-native-set! $v1 1 0))
  (error? (bytevector-s16-native-set! $v1 3 0))
  (error? (bytevector-s16-native-set! $v1 5 0))
  (error? (bytevector-s16-native-set! $v1 7 0))
  (error? (bytevector-s16-native-set! $v1 9 0))
  (error? (bytevector-s16-native-set! $v1 11 0))
  (error? (begin (bytevector-s16-native-set! $v1 'q 0) #f))

 ; invalid value
  (error? (bytevector-s16-native-set! $v1 0 #x8000))
  (error? (bytevector-s16-native-set! $v1 2 #x-8001))
  (error? (begin (bytevector-s16-native-set! $v1 4 "hello") #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad)))

  (begin
    (bytevector-s16-native-set! $v1 0 -1)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-native-set! $v1 0 (native->signed #x80 #x00))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x80 #x00 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-native-set! $v1 0 (native->signed #x00 #x80))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x00 #x80 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-native-set! $v1 0 (native->signed #x7f #xff))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x7f #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-native-set! $v1 0 (native->signed #xff #x7f))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #x7f #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-native-set! $v1 0 (native->signed #xff #xff))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-native-set! $v1 0 #x0000)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-native-set! $v1 2 (native->signed #xf3 #x45))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-native-set! $v1 4 (native->signed #x23 #xc7))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-native-set! $v1 6 (native->signed #x3a #x1c))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xad #xad #xad))))
  (begin
    (bytevector-s16-native-set! $v1 8 (native->signed #xe3 #xd7))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xe3 #xd7 #xad))))

  (let ([v (bytevector #xc7 #xc7)])
    (do ([i 0 (fx+ i 1)])
        ((fx= i (expt 2 8)) #t)
      (do ([j 0 (fx+ j 1)])
          ((fx= j (expt 2 8)))
        (bytevector-s16-native-set! v 0 (native->signed i j))
        (unless (equal? v (bytevector i j))
          (errorf #f "failed for ~s and ~s" i j)))))
)

(mat bytevector-u16-native-set!
  (begin
    (define $v1 (make-bytevector 11 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-u16-native-set!))
  (error? (bytevector-u16-native-set! $v1))
  (error? (bytevector-u16-native-set! $v1 0))
  (error? (begin (bytevector-u16-native-set! $v1 0 0 15) #f))

 ; not a bytevector
  (error? (bytevector-u16-native-set! (make-vector 10) 0 0))
  (error? (begin (bytevector-u16-native-set! (make-vector 10) 0 0) #f))

 ; invalid index
  (error? (bytevector-u16-native-set! $v1 -1 0))
  (error? (bytevector-u16-native-set! $v1 1 0))
  (error? (bytevector-u16-native-set! $v1 3 0))
  (error? (bytevector-u16-native-set! $v1 5 0))
  (error? (bytevector-u16-native-set! $v1 7 0))
  (error? (bytevector-u16-native-set! $v1 9 0))
  (error? (bytevector-u16-native-set! $v1 11 0))
  (error? (begin (bytevector-u16-native-set! $v1 'q 0) #f))

 ; invalid value
  (error? (bytevector-u16-native-set! $v1 0 #x10000))
  (error? (bytevector-u16-native-set! $v1 2 #x-1))
  (error? (begin (bytevector-u16-native-set! $v1 4 "hello") #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad)))

  (begin
    (bytevector-u16-native-set! $v1 0 #xffff)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-native-set! $v1 0 (native->unsigned #x80 #x00))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x80 #x00 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-native-set! $v1 0 (native->unsigned #x00 #x80))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x00 #x80 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-native-set! $v1 0 (native->unsigned #x7f #xff))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x7f #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-native-set! $v1 0 (native->unsigned #xff #x7f))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #x7f #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-native-set! $v1 0 (native->unsigned #xff #xff))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-native-set! $v1 0 #x0000)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-native-set! $v1 2 (native->unsigned #xf3 #x45))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-native-set! $v1 4 (native->unsigned #x23 #xc7))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-native-set! $v1 6 (native->unsigned #x3a #x1c))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xad #xad #xad))))
  (begin
    (bytevector-u16-native-set! $v1 8 (native->unsigned #xe3 #xd7))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xe3 #xd7 #xad))))

  (let ([v (bytevector #xc7 #xc7)])
    (do ([i 0 (fx+ i 1)])
        ((fx= i (expt 2 8)) #t)
      (do ([j 0 (fx+ j 1)])
          ((fx= j (expt 2 8)))
        (bytevector-u16-native-set! v 0 (native->unsigned i j))
        (unless (equal? v (bytevector i j))
          (errorf #f "failed for ~s and ~s" i j)))))
)

(mat bytevector-s16-ref
 ; wrong argument count
  (error? (bytevector-s16-ref))
  (error? (bytevector-s16-ref #vu8(3 252 5)))
  (error? (begin (bytevector-s16-ref #vu8(3 252 5) 0 0 'big) #f))

 ; not a bytevector
  (error? (bytevector-s16-ref '#(3 252 5) 0 'big))
  (error? (begin (bytevector-s16-ref '#(3 252 5) 0 'big) #f))

 ; invalid index
  (error? (bytevector-s16-ref #vu8(3 252 5) -1 (native-endianness)))
  (error? (bytevector-s16-ref #vu8(3 252 5) 2 'big))
  (error? (bytevector-s16-ref #vu8(3 252 5) 3 'little))
  (error? (begin (bytevector-s16-ref #vu8(3 252 5) 4.0 'big) #f))

 ; invalid endianness
  (error? (bytevector-s16-ref #vu8(3 252 5) 0 'bigger))
  (error? (bytevector-s16-ref #vu8(3 252 5) 0 "little"))
  (error? (begin (bytevector-s16-ref #vu8(3 252 5) 0 #t) #f))

 ; aligned accesses, endianness native
  (eqv?
    (bytevector-s16-ref #vu8(3 252 5) 0 (native-endianness))
    (native->signed 3 252))
  (equal?
    (let ([v #vu8(3 252 5 17 23 55 250 89 200 201 128)] [i 4])
      (list
        (bytevector-s16-ref v 0 (native-endianness))
        (bytevector-s16-ref v 2 (native-endianness))
        (bytevector-s16-ref v 4 (native-endianness))
        (bytevector-s16-ref v i (native-endianness))
        (bytevector-s16-ref v 6 (native-endianness))
        (bytevector-s16-ref v 8 (native-endianness))))
    (list
      (native->signed 3 252)
      (native->signed 5 17)
      (native->signed 23 55)
      (native->signed 23 55)
      (native->signed 250 89)
      (native->signed 200 201)))

  (do ([i 0 (fx+ i 1)])
      ((fx= i (expt 2 8)) #t)
    (do ([j 0 (fx+ j 1)])
        ((fx= j (expt 2 8)))
      (unless (eqv? (bytevector-s16-ref (bytevector i j) 0 (native-endianness))
                    (native->signed i j))
        (errorf #f "failed for ~s and ~s" i j))))

 ; aligned accesses, endianness big
  (eqv?
    (bytevector-s16-ref #vu8(3 252 5) 0 'big)
    (big-endian->signed 3 252))
  (equal?
    (let ([v #vu8(3 252 5 17 23 55 250 89 200 201 128)] [i 4])
      (list
        (bytevector-s16-ref v 0 'big)
        (bytevector-s16-ref v 2 'big)
        (bytevector-s16-ref v 4 'big)
        (bytevector-s16-ref v i 'big)
        (bytevector-s16-ref v 6 'big)
        (bytevector-s16-ref v 8 'big)))
    (list
      (big-endian->signed 3 252)
      (big-endian->signed 5 17)
      (big-endian->signed 23 55)
      (big-endian->signed 23 55)
      (big-endian->signed 250 89)
      (big-endian->signed 200 201)))

  (do ([i 0 (fx+ i 1)])
      ((fx= i (expt 2 8)) #t)
    (do ([j 0 (fx+ j 1)])
        ((fx= j (expt 2 8)))
      (unless (eqv? (bytevector-s16-ref (bytevector i j) 0 'big)
                    (big-endian->signed i j))
        (errorf #f "failed for ~s and ~s" i j))))

 ; aligned accesses, endianness little
  (eqv?
    (bytevector-s16-ref #vu8(3 252 5) 0 'little)
    (little-endian->signed 3 252))
  (equal?
    (let ([v #vu8(3 252 5 17 23 55 250 89 200 201 128)] [i 4])
      (list
        (bytevector-s16-ref v 0 'little)
        (bytevector-s16-ref v 2 'little)
        (bytevector-s16-ref v 4 'little)
        (bytevector-s16-ref v i 'little)
        (bytevector-s16-ref v 6 'little)
        (bytevector-s16-ref v 8 'little)))
    (list
      (little-endian->signed 3 252)
      (little-endian->signed 5 17)
      (little-endian->signed 23 55)
      (little-endian->signed 23 55)
      (little-endian->signed 250 89)
      (little-endian->signed 200 201)))

  (do ([i 0 (fx+ i 1)])
      ((fx= i (expt 2 8)) #t)
    (do ([j 0 (fx+ j 1)])
        ((fx= j (expt 2 8)))
      (unless (eqv? (bytevector-s16-ref (bytevector i j) 0 'little)
                    (little-endian->signed i j))
        (errorf #f "failed for ~s and ~s" i j))))

 ; unaligned accesses, endianness mixed
  (eqv?
    (bytevector-s16-ref #vu8(3 252 5) 1 (native-endianness))
    (native->signed 252 5))
  (equal?
    (let ([v #vu8(3 252 5 17 23 55 250 89 200 201 128)] [i 5])
      (list
        (bytevector-s16-ref v 1 (native-endianness))
        (bytevector-s16-ref v 3 'little)
        (bytevector-s16-ref v 5 'big)
        (bytevector-s16-ref v i 'big)
        (bytevector-s16-ref v 7 'little)
        (bytevector-s16-ref v 9 (native-endianness))))
    (list
      (native->signed 252 5)
      (little-endian->signed 17 23)
      (big-endian->signed 55 250)
      (big-endian->signed 55 250)
      (little-endian->signed 89 200)
      (native->signed 201 128)))

  (do ([i 0 (fx+ i 1)])
      ((fx= i (expt 2 8)) #t)
    (do ([j 0 (fx+ j 1)])
        ((fx= j (expt 2 8)))
      (unless (eqv? (bytevector-s16-ref (bytevector 0 i j) 1 'little)
                    (little-endian->signed i j))
        (errorf #f "failed for ~s and ~s (little)" i j))
      (unless (eqv? (bytevector-s16-ref (bytevector 0 i j) 1 'big)
                    (big-endian->signed i j))
        (errorf #f "failed for ~s and ~s (big)" i j))
      (unless (eqv? (bytevector-s16-ref (bytevector 0 i j) 1 (native-endianness))
                    (native->signed i j))
        (errorf #f "failed for ~s and ~s (native)" i j))))
)

(mat bytevector-u16-ref
 ; wrong argument count
  (error? (bytevector-u16-ref))
  (error? (bytevector-u16-ref #vu8(3 252 5)))
  (error? (begin (bytevector-u16-ref #vu8(3 252 5) 0 0 'big) #f))

 ; not a bytevector
  (error? (bytevector-u16-ref '#(3 252 5) 0 'big))
  (error? (begin (bytevector-u16-ref '#(3 252 5) 0 'big) #f))

 ; invalid index
  (error? (bytevector-u16-ref #vu8(3 252 5) -1 (native-endianness)))
  (error? (bytevector-u16-ref #vu8(3 252 5) 2 'little))
  (error? (bytevector-u16-ref #vu8(3 252 5) 3 'big))
  (error? (begin (bytevector-u16-ref #vu8(3 252 5) 4.0 'little) #f))

 ; invalid endianness
  (error? (bytevector-u16-ref #vu8(3 252 5) 0 'bigger))
  (error? (bytevector-u16-ref #vu8(3 252 5) 0 "little"))
  (error? (begin (bytevector-u16-ref #vu8(3 252 5) 0 #t) #f))

 ; aligned accesses, endianness native
  (eqv?
    (bytevector-u16-ref #vu8(3 252 5) 0 (native-endianness))
    (native->unsigned 3 252))
  (equal?
    (let ([v #vu8(3 252 5 17 23 55 250 89 200 201 128)] [i 4])
      (list
        (bytevector-u16-ref v 0 (native-endianness))
        (bytevector-u16-ref v 2 (native-endianness))
        (bytevector-u16-ref v 4 (native-endianness))
        (bytevector-u16-ref v i (native-endianness))
        (bytevector-u16-ref v 6 (native-endianness))
        (bytevector-u16-ref v 8 (native-endianness))))
    (list
      (native->unsigned 3 252)
      (native->unsigned 5 17)
      (native->unsigned 23 55)
      (native->unsigned 23 55)
      (native->unsigned 250 89)
      (native->unsigned 200 201)))

  (do ([i 0 (fx+ i 1)])
      ((fx= i (expt 2 8)) #t)
    (do ([j 0 (fx+ j 1)])
        ((fx= j (expt 2 8)))
      (unless (eqv? (bytevector-u16-ref (bytevector i j) 0 (native-endianness))
                    (native->unsigned i j))
        (errorf #f "failed for ~s and ~s" i j))))

 ; aligned accesses, endianness big
  (eqv?
    (bytevector-u16-ref #vu8(3 252 5) 0 'big)
    (big-endian->unsigned 3 252))
  (equal?
    (let ([v #vu8(3 252 5 17 23 55 250 89 200 201 128)] [i 4])
      (list
        (bytevector-u16-ref v 0 'big)
        (bytevector-u16-ref v 2 'big)
        (bytevector-u16-ref v 4 'big)
        (bytevector-u16-ref v i 'big)
        (bytevector-u16-ref v 6 'big)
        (bytevector-u16-ref v 8 'big)))
    (list
      (big-endian->unsigned 3 252)
      (big-endian->unsigned 5 17)
      (big-endian->unsigned 23 55)
      (big-endian->unsigned 23 55)
      (big-endian->unsigned 250 89)
      (big-endian->unsigned 200 201)))

  (do ([i 0 (fx+ i 1)])
      ((fx= i (expt 2 8)) #t)
    (do ([j 0 (fx+ j 1)])
        ((fx= j (expt 2 8)))
      (unless (eqv? (bytevector-u16-ref (bytevector i j) 0 'big)
                    (big-endian->unsigned i j))
        (errorf #f "failed for ~s and ~s" i j))))

 ; aligned accesses, endianness little
  (eqv?
    (bytevector-u16-ref #vu8(3 252 5) 0 'little)
    (little-endian->unsigned 3 252))
  (equal?
    (let ([v #vu8(3 252 5 17 23 55 250 89 200 201 128)] [i 4])
      (list
        (bytevector-u16-ref v 0 'little)
        (bytevector-u16-ref v 2 'little)
        (bytevector-u16-ref v 4 'little)
        (bytevector-u16-ref v i 'little)
        (bytevector-u16-ref v 6 'little)
        (bytevector-u16-ref v 8 'little)))
    (list
      (little-endian->unsigned 3 252)
      (little-endian->unsigned 5 17)
      (little-endian->unsigned 23 55)
      (little-endian->unsigned 23 55)
      (little-endian->unsigned 250 89)
      (little-endian->unsigned 200 201)))

  (do ([i 0 (fx+ i 1)])
      ((fx= i (expt 2 8)) #t)
    (do ([j 0 (fx+ j 1)])
        ((fx= j (expt 2 8)))
      (unless (eqv? (bytevector-u16-ref (bytevector i j) 0 'little)
                    (little-endian->unsigned i j))
        (errorf #f "failed for ~s and ~s" i j))))

 ; unaligned accesses, endianness mixed
  (eqv?
    (bytevector-u16-ref #vu8(3 252 5) 1 (native-endianness))
    (native->unsigned 252 5))
  (equal?
    (let ([v #vu8(3 252 5 17 23 55 250 89 200 201 128)] [i 5])
      (list
        (bytevector-u16-ref v 1 (native-endianness))
        (bytevector-u16-ref v 3 'little)
        (bytevector-u16-ref v 5 'big)
        (bytevector-u16-ref v i 'big)
        (bytevector-u16-ref v 7 'little)
        (bytevector-u16-ref v 9 (native-endianness))))
    (list
      (native->unsigned 252 5)
      (little-endian->unsigned 17 23)
      (big-endian->unsigned 55 250)
      (big-endian->unsigned 55 250)
      (little-endian->unsigned 89 200)
      (native->unsigned 201 128)))

  (do ([i 0 (fx+ i 1)])
      ((fx= i (expt 2 8)) #t)
    (do ([j 0 (fx+ j 1)])
        ((fx= j (expt 2 8)))
      (unless (eqv? (bytevector-u16-ref (bytevector 0 i j) 1 'little)
                    (little-endian->unsigned i j))
        (errorf #f "failed for ~s and ~s (little)" i j))
      (unless (eqv? (bytevector-u16-ref (bytevector 0 i j) 1 'big)
                    (big-endian->unsigned i j))
        (errorf #f "failed for ~s and ~s (big)" i j))
      (unless (eqv? (bytevector-u16-ref (bytevector 0 i j) 1 (native-endianness))
                    (native->unsigned i j))
        (errorf #f "failed for ~s and ~s (native)" i j))))
)

(mat bytevector-s16-set!
  (begin
    (define $v1 (make-bytevector 11 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-s16-set!))
  (error? (bytevector-s16-set! $v1))
  (error? (bytevector-s16-set! $v1 0 0))
  (error? (begin (bytevector-s16-set! $v1 0 0 0 (native-endianness)) #f))

 ; not a bytevector
  (error? (bytevector-s16-set! (make-vector 10) 0 0 'big))
  (error? (begin (bytevector-s16-set! (make-vector 10) 0 0 'big) #f))

 ; invalid index
  (error? (bytevector-s16-set! $v1 -1 0 (native-endianness)))
  (error? (bytevector-s16-set! $v1 10 0 (native-endianness)))
  (error? (bytevector-s16-set! $v1 11 0 'big))
  (error? (begin (bytevector-s16-set! $v1 'q 0 'little) #f))

 ; invalid value
  (error? (bytevector-s16-set! $v1 0 #x8000 (native-endianness)))
  (error? (bytevector-s16-set! $v1 1 #x8000 (native-endianness)))
  (error? (bytevector-s16-set! $v1 2 #x-8001 'big))
  (error? (bytevector-s16-set! $v1 3 #x-8001 'big))
  (error? (bytevector-s16-set! $v1 4 "hello" 'little))
  (error? (begin (bytevector-s16-set! $v1 5 "hello" 'little) #f))

 ; invalid endianness
  (error? (bytevector-s16-set! $v1 0 0 'bigger))
  (error? (bytevector-s16-set! $v1 0 0 "little"))
  (error? (begin (bytevector-s16-set! $v1 0 0 #t) #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad)))

 ; aligned accesses, endianness native
  (begin
    (bytevector-s16-set! $v1 0 -1 (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (native->signed #x80 #x00) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x80 #x00 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (native->signed #x00 #x80) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x00 #x80 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (native->signed #x7f #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x7f #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (native->signed #xff #x7f) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #x7f #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (native->signed #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 #x0000 (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 2 (native->signed #xf3 #x45) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 4 (native->signed #x23 #xc7) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 6 (native->signed #x3a #x1c) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 8 (native->signed #xe3 #xd7) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xe3 #xd7 #xad))))

  (let ([v (bytevector #xc7 #xc7)])
    (do ([i 0 (fx+ i 1)])
        ((fx= i (expt 2 8)) #t)
      (do ([j 0 (fx+ j 1)])
          ((fx= j (expt 2 8)))
        (bytevector-s16-set! v 0 (native->signed i j) (native-endianness))
        (unless (equal? v (bytevector i j))
          (errorf #f "failed for ~s and ~s" i j)))))

 ; aligned accesses, endianness little
  (begin
    (define $v1 (make-bytevector 11 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s16-set! $v1 0 -1 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (little-endian->signed #x80 #x00) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x80 #x00 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (little-endian->signed #x00 #x80) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x00 #x80 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (little-endian->signed #x7f #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x7f #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (little-endian->signed #xff #x7f) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #x7f #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (little-endian->signed #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 #x0000 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 2 (little-endian->signed #xf3 #x45) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 4 (little-endian->signed #x23 #xc7) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 6 (little-endian->signed #x3a #x1c) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 8 (little-endian->signed #xe3 #xd7) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xe3 #xd7 #xad))))

  (let ([v (bytevector #xc7 #xc7)])
    (do ([i 0 (fx+ i 1)])
        ((fx= i (expt 2 8)) #t)
      (do ([j 0 (fx+ j 1)])
          ((fx= j (expt 2 8)))
        (bytevector-s16-set! v 0 (little-endian->signed i j) 'little)
        (unless (equal? v (bytevector i j))
          (errorf #f "failed for ~s and ~s" i j)))))

 ; aligned accesses, endianness big
  (begin
    (define $v1 (make-bytevector 11 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s16-set! $v1 0 -1 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (big-endian->signed #x80 #x00) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x80 #x00 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (big-endian->signed #x00 #x80) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x00 #x80 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (big-endian->signed #x7f #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x7f #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (big-endian->signed #xff #x7f) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #x7f #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 (big-endian->signed #xff #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 0 #x0000 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 2 (big-endian->signed #xf3 #x45) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 4 (big-endian->signed #x23 #xc7) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 6 (big-endian->signed #x3a #x1c) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 8 (big-endian->signed #xe3 #xd7) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xe3 #xd7 #xad))))

  (let ([v (bytevector #xc7 #xc7)])
    (do ([i 0 (fx+ i 1)])
        ((fx= i (expt 2 8)) #t)
      (do ([j 0 (fx+ j 1)])
          ((fx= j (expt 2 8)))
        (bytevector-s16-set! v 0 (big-endian->signed i j) 'big)
        (unless (equal? v (bytevector i j))
          (errorf #f "failed for ~s and ~s" i j)))))

 ; unaligned accesses, endianness mixed
  (begin
    (define $v1 (make-bytevector 11 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s16-set! $v1 1 -1 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xff #xff #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 1 (native->signed #x80 #x00) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x80 #x00 #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 1 (little-endian->signed #x00 #x80) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x00 #x80 #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 1 (little-endian->signed #x7f #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x7f #xff #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 1 (native->signed #xff #x7f) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xff #x7f #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 1 (big-endian->signed #xff #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xff #xff #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 1 #x0000 (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x00 #x00 #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 3 (big-endian->signed #xf3 #x45) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x00 #x00 #xf3 #x45 #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 5 (little-endian->signed #x23 #xc7) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x00 #x00 #xf3 #x45 #x23 #xc7 #xad #xad #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 7 (native->signed #x3a #x1c) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x00 #x00 #xf3 #x45 #x23 #xc7 #x3a #x1c #xad #xad))))
  (begin
    (bytevector-s16-set! $v1 9 (big-endian->signed #xe3 #xd7) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x00 #x00 #xf3 #x45 #x23 #xc7 #x3a #x1c #xe3 #xd7))))

  (let ([v (bytevector 0 #xc7 #xc7)])
    (do ([i 0 (fx+ i 1)])
        ((fx= i (expt 2 8)) #t)
      (do ([j 0 (fx+ j 1)])
          ((fx= j (expt 2 8)))
        (bytevector-s16-set! v 1 (native->signed i j) (native-endianness))
        (unless (equal? v (bytevector 0 i j))
          (errorf #f "failed for ~s and ~s (native)" i j))
        (bytevector-u8-set! v 1 #xc7)
        (bytevector-u8-set! v 2 #xc7)
        (bytevector-s16-set! v 1 (big-endian->signed i j) 'big)
        (unless (equal? v (bytevector 0 i j))
          (errorf #f "failed for ~s and ~s (big)" i j))
        (bytevector-u8-set! v 1 #xc7)
        (bytevector-u8-set! v 2 #xc7)
        (bytevector-s16-set! v 1 (little-endian->signed i j) 'little)
        (unless (equal? v (bytevector 0 i j))
          (errorf #f "failed for ~s and ~s (little)" i j)))))
)

(mat bytevector-u16-set!
  (begin
    (define $v1 (make-bytevector 11 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-u16-set!))
  (error? (bytevector-u16-set! $v1))
  (error? (bytevector-u16-set! $v1 0 0))
  (error? (begin (bytevector-u16-set! $v1 0 0 0 (native-endianness)) #f))

 ; not a bytevector
  (error? (bytevector-u16-set! (make-vector 10) 0 0 'big))
  (error? (begin (bytevector-u16-set! (make-vector 10) 0 0 'big) #f))

 ; invalid index
  (error? (bytevector-u16-set! $v1 -1 0 (native-endianness)))
  (error? (bytevector-u16-set! $v1 10 0 'big))
  (error? (bytevector-u16-set! $v1 11 0 'big))
  (error? (begin (bytevector-u16-set! $v1 'q 0 'little) #f))

 ; invalid value
  (error? (bytevector-u16-set! $v1 0 #x10000 (native-endianness)))
  (error? (bytevector-u16-set! $v1 1 #x10000 (native-endianness)))
  (error? (bytevector-u16-set! $v1 2 #x-1 'little))
  (error? (bytevector-u16-set! $v1 3 #x-1 'little))
  (error? (bytevector-u16-set! $v1 4 "hello" 'big))
  (error? (begin (bytevector-u16-set! $v1 5 "hello" 'big) #f))

 ; invalid endianness
  (error? (bytevector-u16-set! $v1 0 0 'bigger))
  (error? (bytevector-u16-set! $v1 0 0 "little"))
  (error? (begin (bytevector-u16-set! $v1 0 0 #t) #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad)))

 ; aligned accesses, endianness native
  (begin
    (bytevector-u16-set! $v1 0 #xffff (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (native->unsigned #x80 #x00) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x80 #x00 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (native->unsigned #x00 #x80) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x00 #x80 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (native->unsigned #x7f #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x7f #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (native->unsigned #xff #x7f) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #x7f #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (native->unsigned #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 #x0000 (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 2 (native->unsigned #xf3 #x45) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 4 (native->unsigned #x23 #xc7) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 6 (native->unsigned #x3a #x1c) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 8 (native->unsigned #xe3 #xd7) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xe3 #xd7 #xad))))

  (let ([v (bytevector #xc7 #xc7)])
    (do ([i 0 (fx+ i 1)])
        ((fx= i (expt 2 8)) #t)
      (do ([j 0 (fx+ j 1)])
          ((fx= j (expt 2 8)))
        (bytevector-u16-set! v 0 (native->unsigned i j) (native-endianness))
        (unless (equal? v (bytevector i j))
          (errorf #f "failed for ~s and ~s" i j)))))

 ; aligned accesses, endianness little
  (begin
    (define $v1 (make-bytevector 11 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u16-set! $v1 0 #xffff 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (little-endian->unsigned #x80 #x00) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x80 #x00 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (little-endian->unsigned #x00 #x80) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x00 #x80 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (little-endian->unsigned #x7f #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x7f #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (little-endian->unsigned #xff #x7f) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #x7f #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (little-endian->unsigned #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 #x0000 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 2 (little-endian->unsigned #xf3 #x45) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 4 (little-endian->unsigned #x23 #xc7) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 6 (little-endian->unsigned #x3a #x1c) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 8 (little-endian->unsigned #xe3 #xd7) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xe3 #xd7 #xad))))

  (let ([v (bytevector #xc7 #xc7)])
    (do ([i 0 (fx+ i 1)])
        ((fx= i (expt 2 8)) #t)
      (do ([j 0 (fx+ j 1)])
          ((fx= j (expt 2 8)))
        (bytevector-u16-set! v 0 (little-endian->unsigned i j) 'little)
        (unless (equal? v (bytevector i j))
          (errorf #f "failed for ~s and ~s" i j)))))

 ; aligned accesses, endianness big
  (begin
    (define $v1 (make-bytevector 11 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u16-set! $v1 0 #xffff 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (big-endian->unsigned #x80 #x00) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x80 #x00 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (big-endian->unsigned #x00 #x80) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x00 #x80 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (big-endian->unsigned #x7f #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#x7f #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (big-endian->unsigned #xff #x7f) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #x7f #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 (big-endian->unsigned #xff #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xff #xff #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 0 #x0000 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xad #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 2 (big-endian->unsigned #xf3 #x45) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 4 (big-endian->unsigned #x23 #xc7) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 6 (big-endian->unsigned #x3a #x1c) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 8 (big-endian->unsigned #xe3 #xd7) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(0 0 #xf3 #x45 #x23 #xc7 #x3a #x1c #xe3 #xd7 #xad))))

  (let ([v (bytevector #xc7 #xc7)])
    (do ([i 0 (fx+ i 1)])
        ((fx= i (expt 2 8)) #t)
      (do ([j 0 (fx+ j 1)])
          ((fx= j (expt 2 8)))
        (bytevector-u16-set! v 0 (big-endian->unsigned i j) 'big)
        (unless (equal? v (bytevector i j))
          (errorf #f "failed for ~s and ~s" i j)))))

 ; unaligned accesses, endianness mixed
  (begin
    (define $v1 (make-bytevector 11 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xad #xad #xad #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u16-set! $v1 1 #xffff 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xff #xff #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 1 (native->unsigned #x80 #x00) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x80 #x00 #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 1 (little-endian->unsigned #x00 #x80) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x00 #x80 #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 1 (little-endian->unsigned #x7f #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x7f #xff #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 1 (native->unsigned #xff #x7f) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xff #x7f #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 1 (big-endian->unsigned #xff #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #xff #xff #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 1 #x0000 (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x00 #x00 #xad #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 3 (big-endian->unsigned #xf3 #x45) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x00 #x00 #xf3 #x45 #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 5 (little-endian->unsigned #x23 #xc7) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x00 #x00 #xf3 #x45 #x23 #xc7 #xad #xad #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 7 (native->unsigned #x3a #x1c) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x00 #x00 #xf3 #x45 #x23 #xc7 #x3a #x1c #xad #xad))))
  (begin
    (bytevector-u16-set! $v1 9 (big-endian->unsigned #xe3 #xd7) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 #vu8(#xad #x00 #x00 #xf3 #x45 #x23 #xc7 #x3a #x1c #xe3 #xd7))))

  (let ([v (bytevector 0 #xc7 #xc7)])
    (do ([i 0 (fx+ i 1)])
        ((fx= i (expt 2 8)) #t)
      (do ([j 0 (fx+ j 1)])
          ((fx= j (expt 2 8)))
        (bytevector-u16-set! v 1 (native->unsigned i j) (native-endianness))
        (unless (equal? v (bytevector 0 i j))
          (errorf #f "failed for ~s and ~s (native)" i j))
        (bytevector-u8-set! v 1 #xc7)
        (bytevector-u8-set! v 2 #xc7)
        (bytevector-u16-set! v 1 (big-endian->unsigned i j) 'big)
        (unless (equal? v (bytevector 0 i j))
          (errorf #f "failed for ~s and ~s (big)" i j))
        (bytevector-u8-set! v 1 #xc7)
        (bytevector-u8-set! v 2 #xc7)
        (bytevector-u16-set! v 1 (little-endian->unsigned i j) 'little)
        (unless (equal? v (bytevector 0 i j))
          (errorf #f "failed for ~s and ~s (little)" i j)))))
)

(mat bytevector-s24-ref
 ; wrong argument count
  (error? (bytevector-s24-ref))
  (error? (bytevector-s24-ref #vu8(3 252 5 0)))
  (error? (bytevector-s24-ref #vu8(3 252 5 0) 0))
  (error? (begin (bytevector-s24-ref #vu8(3 252 5 0) 0 (native-endianness) 0) #f))

 ; not a bytevector
  (error? (bytevector-s24-ref '#(3 252 5 0 0 0 0) 0 'big))
  (error? (begin (bytevector-s24-ref '#(3 252 5 0 0 0 0) 0 'big) #f))

 ; invalid index
  (error? (bytevector-s24-ref #vu8(3 252 5 0 0 0 0) -1 'big))
  (error? (bytevector-s24-ref #vu8(3 252 5 0 0 0 0) 6 'little))
  (error? (bytevector-s24-ref #vu8(3 252 5 0 0 0 0) 7 (native-endianness)))
  (error? (begin (bytevector-s24-ref #vu8(3 252 5 0 0 0 0) 4.0 'little) #f))

 ; invalid endianness
  (error? (bytevector-s24-ref #vu8(3 252 5 0 0 0 0) 0 'bigger))
  (error? (bytevector-s24-ref #vu8(3 252 5 0 0 0 0) 0 "little"))
  (error? (begin (bytevector-s24-ref #vu8(3 252 5 0 0 0 0) 0 #t) #f))

 ; 32-bit aligned accesses, endianness native
  (eqv?
    (bytevector-s24-ref #vu8(3 252 5 32 65 87 20) 0 (native-endianness))
    (native->signed 3 252 5))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-s24-ref v 0 (native-endianness))
        (bytevector-s24-ref v 4 (native-endianness))
        (bytevector-s24-ref v 8 (native-endianness))
        (bytevector-s24-ref v 12 (native-endianness))))
    (list
      (native->signed 30 100 200)
      (native->signed 249 199 99)
      (native->signed 248 189 190)
      (native->signed 24 25 26)))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
      (unless (eqv? (bytevector-s24-ref (apply bytevector ls) 0 (native-endianness))
                    (apply native->signed ls))
        (errorf #f "failed for ~s" ls))))

 ; 32-bit aligned accesses, endianness big
  (eqv?
    (bytevector-s24-ref #vu8(3 252 5 32 65 87 20) 0 'big)
    (big-endian->signed 3 252 5))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-s24-ref v 0 'big)
        (bytevector-s24-ref v 4 'big)
        (bytevector-s24-ref v 8 'big)
        (bytevector-s24-ref v 12 'big)))
    (list
      (big-endian->signed 30 100 200)
      (big-endian->signed 249 199 99)
      (big-endian->signed 248 189 190)
      (big-endian->signed 24 25 26)))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
      (unless (eqv? (bytevector-s24-ref (apply bytevector ls) 0 'big)
                    (apply big-endian->signed ls))
        (errorf #f "failed for ~s" ls))))

 ; 32-bit aligned accesses, endianness little
  (eqv?
    (bytevector-s24-ref #vu8(3 252 5 32 65 87 20) 0 'little)
    (little-endian->signed 3 252 5))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-s24-ref v 0 'little)
        (bytevector-s24-ref v 4 'little)
        (bytevector-s24-ref v 8 'little)
        (bytevector-s24-ref v 12 'little)))
    (list
      (little-endian->signed 30 100 200)
      (little-endian->signed 249 199 99)
      (little-endian->signed 248 189 190)
      (little-endian->signed 24 25 26)))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
      (unless (eqv? (bytevector-s24-ref (apply bytevector ls) 0 'little)
                    (apply little-endian->signed ls))
        (errorf #f "failed for ~s" ls))))

 ; not 32-bit aligned, endianness mixed
  (eqv?
    (bytevector-s24-ref #vu8(3 252 5 32 65 87 20) 3 (native-endianness))
    (native->signed 32 65 87))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-s24-ref v 1 'little)
        (bytevector-s24-ref v 6 'big)
        (bytevector-s24-ref v 11 (native-endianness))
        (bytevector-s24-ref v 15 'little)))
    (list
      (little-endian->signed 100 200 250)
      (big-endian->signed 99 29 248)
      (native->signed 207 24 25)
      (little-endian->signed 27 28 29)))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
      (unless (eqv? (bytevector-s24-ref (apply bytevector ls) 1 (native-endianness))
                    (apply native->signed (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (bytevector-s24-ref (apply bytevector ls) 1 'little)
                    (apply little-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (bytevector-s24-ref (apply bytevector ls) 1 'big)
                    (apply big-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
      (unless (eqv? (eval `(bytevector-s24-ref ,(apply bytevector ls) 1 (native-endianness)))
                    (apply native->signed (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (eval `(bytevector-s24-ref ,(apply bytevector ls) 1 'little))
                    (apply little-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (eval `(bytevector-s24-ref ,(apply bytevector ls) 1 'big))
                    (apply big-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))
)

(mat bytevector-u24-ref
 ; wrong argument count
  (error? (bytevector-u24-ref))
  (error? (bytevector-u24-ref #vu8(3 252 5 0)))
  (error? (bytevector-u24-ref #vu8(3 252 5 0) 0))
  (error? (begin (bytevector-u24-ref #vu8(3 252 5 0) 0 (native-endianness) 0) #f))

 ; not a bytevector
  (error? (bytevector-u24-ref '#(3 252 5 0 0 0 0) 0 'big))
  (error? (begin (bytevector-u24-ref '#(3 252 5 0 0 0 0) 0 'big) #f))

 ; invalid index
  (error? (bytevector-u24-ref #vu8(3 252 5 0 0 0 0) -1 'big))
  (error? (bytevector-u24-ref #vu8(3 252 5 0 0 0 0) 6 'little))
  (error? (bytevector-u24-ref #vu8(3 252 5 0 0 0 0) 7 (native-endianness)))
  (error? (begin (bytevector-u24-ref #vu8(3 252 5 0 0 0 0) 4.0 'little) #f))

 ; invalid endianness
  (error? (bytevector-u24-ref #vu8(0 1 2 3 4 5 6 7) 0 'bigger))
  (error? (bytevector-u24-ref #vu8(0 1 2 3 4 5 6 7) 0 "little"))
  (error? (begin (bytevector-u24-ref #vu8(0 1 2 3 4 5 6 7) 0 #t) #f))

 ; 32-bit aligned accesses, endianness native
  (eqv?
    (bytevector-u24-ref #vu8(3 252 5 32 65 87 20) 0 (native-endianness))
    (native->unsigned 3 252 5))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-u24-ref v 0 (native-endianness))
        (bytevector-u24-ref v 4 (native-endianness))
        (bytevector-u24-ref v 8 (native-endianness))
        (bytevector-u24-ref v 12 (native-endianness))))
    (list
      (native->unsigned 30 100 200)
      (native->unsigned 249 199 99)
      (native->unsigned 248 189 190)
      (native->unsigned 24 25 26)))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
      (unless (eqv? (bytevector-u24-ref (apply bytevector ls) 0 (native-endianness))
                    (apply native->unsigned ls))
        (errorf #f "failed for ~s" ls))))

 ; 32-bit aligned accesses, endianness big
  (eqv?
    (bytevector-u24-ref #vu8(3 252 5 32 65 87 20) 0 'big)
    (big-endian->unsigned 3 252 5))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-u24-ref v 0 'big)
        (bytevector-u24-ref v 4 'big)
        (bytevector-u24-ref v 8 'big)
        (bytevector-u24-ref v 12 'big)))
    (list
      (big-endian->unsigned 30 100 200)
      (big-endian->unsigned 249 199 99)
      (big-endian->unsigned 248 189 190)
      (big-endian->unsigned 24 25 26)))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
      (unless (eqv? (bytevector-u24-ref (apply bytevector ls) 0 'big)
                    (apply big-endian->unsigned ls))
        (errorf #f "failed for ~s" ls))))

 ; 32-bit aligned accesses, endianness little
  (eqv?
    (bytevector-u24-ref #vu8(3 252 5 32 65 87 20) 0 'little)
    (little-endian->unsigned 3 252 5))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-u24-ref v 0 'little)
        (bytevector-u24-ref v 4 'little)
        (bytevector-u24-ref v 8 'little)
        (bytevector-u24-ref v 12 'little)))
    (list
      (little-endian->unsigned 30 100 200)
      (little-endian->unsigned 249 199 99)
      (little-endian->unsigned 248 189 190)
      (little-endian->unsigned 24 25 26)))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
      (unless (eqv? (bytevector-u24-ref (apply bytevector ls) 0 'little)
                    (apply little-endian->unsigned ls))
        (errorf #f "failed for ~s" ls))))

 ; not 32-bit aligned accesses, endianness mixed
  (eqv?
    (bytevector-u24-ref #vu8(3 252 5 32 65 87 20) 3 (native-endianness))
    (native->unsigned 32 65 87))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29)])
      (list
        (bytevector-u24-ref v 1 'little)
        (bytevector-u24-ref v 6 'big)
        (bytevector-u24-ref v 11 (native-endianness))
        (bytevector-u24-ref v 15 'little)))
    (list
      (little-endian->unsigned 100 200 250)
      (big-endian->unsigned 99 29 248)
      (native->unsigned 207 24 25)
      (little-endian->unsigned 27 28 29)))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
      (unless (eqv? (bytevector-u24-ref (apply bytevector ls) 1 (native-endianness))
                    (apply native->unsigned (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (bytevector-u24-ref (apply bytevector ls) 1 'little)
                    (apply little-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (bytevector-u24-ref (apply bytevector ls) 1 'big)
                    (apply big-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
      (unless (eqv? (eval `(bytevector-u24-ref ,(apply bytevector ls) 1 (native-endianness)))
                    (apply native->unsigned (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (eval `(bytevector-u24-ref ,(apply bytevector ls) 1 'little))
                    (apply little-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (eval `(bytevector-u24-ref ,(apply bytevector ls) 1 'big))
                    (apply big-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))
)

(mat bytevector-s24-set!
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-s24-set!))
  (error? (bytevector-s24-set! $v1))
  (error? (bytevector-s24-set! $v1 0))
  (error? (bytevector-s24-set! $v1 0 0))
  (error? (begin (bytevector-s24-set! $v1 0 0 'big 0) #f))

 ; not a bytevector
  (error? (bytevector-s24-set! (make-vector 10) 0 0 (native-endianness)))
  (error? (begin (bytevector-s24-set! (make-vector 10) 0 0 (native-endianness)) #f))

 ; invalid index
  (error? (bytevector-s24-set! $v1 -1 0 'big))
  (error? (bytevector-s24-set! $v1 21 0 (native-endianness)))
  (error? (bytevector-s24-set! $v1 22 0 'little))
  (error? (bytevector-s24-set! $v1 23 0 (native-endianness)))
  (error? (begin (bytevector-s24-set! $v1 'q 0 'big) #f))

 ; invalid value
  (error? (bytevector-s24-set! $v1 0 (expt 2 23) 'big))
  (error? (bytevector-s24-set! $v1 4 (- -1 (expt 2 23)) (native-endianness)))
  (error? (begin (bytevector-s24-set! $v1 8 "hello" 'little) #f))

 ; invalid endianness
  (error? (bytevector-s24-set! $v1 0 0 'huge))
  (error? (bytevector-s24-set! $v1 4 0 "tiny"))
  (error? (begin (bytevector-s24-set! $v1 8 0 $v1) #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

 ; 32-bit aligned accesses, endianness native
  (begin
    (bytevector-s24-set! $v1 0 -1 (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (native->signed #x80 #x00 #x00) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (native->signed #x00 #x00 #x80) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x80 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (native->signed #x7f #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (native->signed #xff #xff #x7f) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #x7f #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (native->signed #xff #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 #x000000 (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 4 (native->signed #xf3 #x45 #x19) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 8 (native->signed #x23 #xc7 #xe8) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 12 (native->signed #x3a #x1c #x59) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #x3a #x1c #x59 #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 16 (native->signed #xe3 #xd7 #xa9) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #x3a #x1c #x59 #xad
                        #xe3 #xd7 #xa9 #xad #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
        (bytevector-s24-set! v 0 (apply native->signed ls) (native-endianness))
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; 32-bit aligned accesses, endianness big
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s24-set! $v1 0 -1 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (big-endian->signed #x80 #x00 #x00) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (big-endian->signed #x00 #x00 #x80) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x80 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (big-endian->signed #x7f #xff #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (big-endian->signed #xff #xff #x7f) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #x7f #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (big-endian->signed #xff #xff #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 #x000000 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 4 (big-endian->signed #xf3 #x45 #x19) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 8 (big-endian->signed #x23 #xc7 #xe8) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 12 (big-endian->signed #x3a #x1c #x59) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #x3a #x1c #x59 #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 16 (big-endian->signed #xe3 #xd7 #xa9) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #x3a #x1c #x59 #xad
                        #xe3 #xd7 #xa9 #xad #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
        (bytevector-s24-set! v 0 (apply big-endian->signed ls) 'big)
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; 32-bit aligned accesses, endianness little
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s24-set! $v1 0 -1 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (little-endian->signed #x80 #x00 #x00) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (little-endian->signed #x00 #x00 #x80) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x80 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (little-endian->signed #x7f #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (little-endian->signed #xff #xff #x7f) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #x7f #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 (little-endian->signed #xff #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 0 #x000000 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 4 (little-endian->signed #xf3 #x45 #x19) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 8 (little-endian->signed #x23 #xc7 #xe8) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 12 (little-endian->signed #x3a #x1c #x59) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #x3a #x1c #x59 #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 16 (little-endian->signed #xe3 #xd7 #xa9) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #x3a #x1c #x59 #xad
                        #xe3 #xd7 #xa9 #xad #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
        (bytevector-s24-set! v 0 (apply little-endian->signed ls) 'little)
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; not 32-bit aligned accesses, endianness mixed
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s24-set! $v1 1 -1 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 1 (little-endian->signed #x80 #x00 #x00) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x80 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 1 (native->signed #x00 #x00 #x80) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x80 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 1 (native->signed #x7f #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x7f #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 1 (big-endian->signed #xff #xff #x7f) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xff #xff #x7f #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 1 (little-endian->signed #xff #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 1 #x000000 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 5 (native->signed #xf3 #x45 #x19) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #xad #xf3 #x45 #x19
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 10 (little-endian->signed #x23 #xc7 #xe8) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #xad #xf3 #x45 #x19
                        #xad #xad #x23 #xc7 #xe8 #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 15 (big-endian->signed #x3a #x1c #x59) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #xad #xf3 #x45 #x19
                        #xad #xad #x23 #xc7 #xe8 #xad #xad #x3a
                        #x1c #x59 #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s24-set! $v1 20 (little-endian->signed #xe3 #xd7 #xa9) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #xad #xf3 #x45 #x19
                        #xad #xad #x23 #xc7 #xe8 #xad #xad #x3a
                        #x1c #x59 #xad #xad #xe3 #xd7 #xa9))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
        (bytevector-s24-set! v 1 (apply big-endian->signed ls) 'big)
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (bytevector-s24-set! v 1 (apply little-endian->signed (reverse ls)) 'little)
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (bytevector-s24-set! v 1 (apply native->signed ls) (native-endianness))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
        (eval `(bytevector-s24-set! ,v 1 ,(apply big-endian->signed ls) 'big))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-s24-set! ,v 1 ,(apply little-endian->signed (reverse ls)) 'little))
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-s24-set! ,v 1 ,(apply native->signed ls) (native-endianness)))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-u24-set!
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-u24-set!))
  (error? (bytevector-u24-set! $v1))
  (error? (bytevector-u24-set! $v1 0))
  (error? (bytevector-u24-set! $v1 0 0))
  (error? (if (bytevector-u24-set! $v1 0 0 'big 0) #f #t))

 ; not a bytevector
  (error? (bytevector-u24-set! (make-vector 10) 0 0 (native-endianness)))
  (error? (if (bytevector-u24-set! (make-vector 10) 0 0 (native-endianness)) #f #t))

 ; invalid index
  (error? (bytevector-u24-set! $v1 -1 0 'big))
  (error? (bytevector-u24-set! $v1 21 0 (native-endianness)))
  (error? (bytevector-u24-set! $v1 22 0 'little))
  (error? (bytevector-u24-set! $v1 23 0 (native-endianness)))
  (error? (if (bytevector-u24-set! $v1 'q 0 'big) #f #t))

 ; invalid value
  (error? (bytevector-u24-set! $v1 0 (expt 2 24) 'big))
  (error? (bytevector-u24-set! $v1 4 #x-1 (native-endianness)))
  (error? (if (bytevector-u24-set! $v1 8 "hello" 'little) #f #t))

 ; invalid endianness
  (error? (bytevector-u24-set! $v1 0 0 'huge))
  (error? (bytevector-u24-set! $v1 4 0 "tiny"))
  (error? (if (bytevector-u24-set! $v1 8 0 $v1) #f #t))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

 ; 32-bit aligned accesses, endianness native
  (begin
    (bytevector-u24-set! $v1 0 #xffffff (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (native->unsigned #x80 #x00 #x00) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (native->unsigned #x00 #x00 #x80) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x80 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (native->unsigned #x7f #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (native->unsigned #xff #xff #x7f) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #x7f #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (native->unsigned #xff #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 #x000000 (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 4 (native->unsigned #xf3 #x45 #x19) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 8 (native->unsigned #x23 #xc7 #xe8) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 12 (native->unsigned #x3a #x1c #x59) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #x3a #x1c #x59 #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 16 (native->unsigned #xe3 #xd7 #xa9) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #x3a #x1c #x59 #xad
                        #xe3 #xd7 #xa9 #xad #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
        (bytevector-u24-set! v 0 (apply native->unsigned ls) (native-endianness))
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; 32-bit aligned accesses, endianness big
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u24-set! $v1 0 #xffffff 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (big-endian->unsigned #x80 #x00 #x00) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (big-endian->unsigned #x00 #x00 #x80) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x80 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (big-endian->unsigned #x7f #xff #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (big-endian->unsigned #xff #xff #x7f) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #x7f #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (big-endian->unsigned #xff #xff #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 #x000000 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 4 (big-endian->unsigned #xf3 #x45 #x19) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 8 (big-endian->unsigned #x23 #xc7 #xe8) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 12 (big-endian->unsigned #x3a #x1c #x59) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #x3a #x1c #x59 #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 16 (big-endian->unsigned #xe3 #xd7 #xa9) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #x3a #x1c #x59 #xad
                        #xe3 #xd7 #xa9 #xad #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
        (bytevector-u24-set! v 0 (apply big-endian->unsigned ls) 'big)
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; 32-bit aligned accesses, endianness little
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u24-set! $v1 0 #xffffff 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (little-endian->unsigned #x80 #x00 #x00) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (little-endian->unsigned #x00 #x00 #x80) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x80 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (little-endian->unsigned #x7f #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (little-endian->unsigned #xff #xff #x7f) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #x7f #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 (little-endian->unsigned #xff #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 0 #x000000 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 4 (little-endian->unsigned #xf3 #x45 #x19) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 8 (little-endian->unsigned #x23 #xc7 #xe8) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 12 (little-endian->unsigned #x3a #x1c #x59) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #x3a #x1c #x59 #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 16 (little-endian->unsigned #xe3 #xd7 #xa9) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #xad #xf3 #x45 #x19 #xad
                        #x23 #xc7 #xe8 #xad #x3a #x1c #x59 #xad
                        #xe3 #xd7 #xa9 #xad #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
        (bytevector-u24-set! v 0 (apply little-endian->unsigned ls) 'little)
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; not 32-bit aligned accesses, endianness mixed
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u24-set! $v1 1 #xffffff 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 1 (little-endian->unsigned #x80 #x00 #x00) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x80 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 1 (native->unsigned #x00 #x00 #x80) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x80 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 1 (native->unsigned #x7f #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x7f #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 1 (big-endian->unsigned #xff #xff #x7f) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xff #xff #x7f #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 1 (little-endian->unsigned #xff #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 1 #x000000 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 5 (native->unsigned #xf3 #x45 #x19) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #xad #xf3 #x45 #x19
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 10 (little-endian->unsigned #x23 #xc7 #xe8) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #xad #xf3 #x45 #x19
                        #xad #xad #x23 #xc7 #xe8 #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 15 (big-endian->unsigned #x3a #x1c #x59) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #xad #xf3 #x45 #x19
                        #xad #xad #x23 #xc7 #xe8 #xad #xad #x3a
                        #x1c #x59 #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u24-set! $v1 20 (little-endian->unsigned #xe3 #xd7 #xa9) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #xad #xf3 #x45 #x19
                        #xad #xad #x23 #xc7 #xe8 #xad #xad #x3a
                        #x1c #x59 #xad #xad #xe3 #xd7 #xa9))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
        (bytevector-u24-set! v 1 (apply big-endian->unsigned ls) 'big)
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (bytevector-u24-set! v 1 (apply little-endian->unsigned (reverse ls)) 'little)
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (bytevector-u24-set! v 1 (apply native->unsigned ls) (native-endianness))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 3))])
        (eval `(bytevector-u24-set! ,v 1 ,(apply big-endian->unsigned ls) 'big))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-u24-set! ,v 1 ,(apply little-endian->unsigned (reverse ls)) 'little))
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-u24-set! ,v 1 ,(apply native->unsigned ls) (native-endianness)))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-s32-native-ref
 ; wrong argument count
  (error? (bytevector-s32-native-ref))
  (error? (bytevector-s32-native-ref #vu8(3 252 5 0)))
  (error? (begin (bytevector-s32-native-ref #vu8(3 252 5 0) 0 0) #f))

 ; not a bytevector
  (error? (bytevector-s32-native-ref '#(3 252 5 0 0 0 0) 0))
  (error? (begin (bytevector-s32-native-ref '#(3 252 5 0 0 0 0) 0) #f))

 ; invalid index
  (error? (bytevector-s32-native-ref #vu8(3 252 5 0 0 0 0) -1))
  (error? (bytevector-s32-native-ref #vu8(3 252 5 0 0 0 0) 1))
  (error? (bytevector-s32-native-ref #vu8(3 252 5 0 0 0 0) 2))
  (error? (bytevector-s32-native-ref #vu8(3 252 5 0 0 0 0) 3))
  (error? (bytevector-s32-native-ref #vu8(3 252 5 0 0 0 0) 4))
  (error? (bytevector-s32-native-ref #vu8(3 252 5 0 0 0 0) 5))
  (error? (bytevector-s32-native-ref #vu8(3 252 5 0 0 0 0) 6))
  (error? (bytevector-s32-native-ref #vu8(3 252 5 0 0 0 0) 7))
  (error? (begin (bytevector-s32-native-ref #vu8(3 252 5 0 0 0 0) 4.0) #f))

  (eqv?
    (bytevector-s32-native-ref #vu8(3 252 5 32 65 87 20) 0)
    (native->signed 3 252 5 32))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-s32-native-ref v 0)
        (bytevector-s32-native-ref v 4)
        (bytevector-s32-native-ref v 8)
        (bytevector-s32-native-ref v 12)))
    (list
      (native->signed 30 100 200 250)
      (native->signed 249 199 99 29)
      (native->signed 248 189 190 207)
      (native->signed 24 25 26 27)))

  (test-cp0-expansion eqv?
    '(bytevector-s32-native-ref #vu8(3 252 5 32 65 87 20) 0)
    (native->signed 3 252 5 32))
  (equal?
    (cdr (parameterize ([optimize-level 2] [enable-cp0 #t] [#%$suppress-primitive-inlining #f])
           (expand/optimize '(let ([v '#vu8(30 100 200 250
                                             249 199 99 29
                                             248 189 190 207
                                             24 25 26 27
                                             28 29 30)])
                               (list
                                 (bytevector-s32-native-ref v 0)
                                 (bytevector-s32-native-ref v 4)
                                 (bytevector-s32-native-ref v 8)
                                 (bytevector-s32-native-ref v 12))))))
    (list
      (native->signed 30 100 200 250)
      (native->signed 249 199 99 29)
      (native->signed 248 189 190 207)
      (native->signed 24 25 26 27)))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
      (unless (eqv? (bytevector-s32-native-ref (apply bytevector ls) 0)
                    (apply native->signed ls))
        (errorf #f "failed for ~s" ls))))
)

(mat bytevector-u32-native-ref
 ; wrong argument count
  (error? (bytevector-u32-native-ref))
  (error? (bytevector-u32-native-ref #vu8(3 252 5 0)))
  (error? (begin (bytevector-u32-native-ref #vu8(3 252 5 0) 0 0) #f))

 ; not a bytevector
  (error? (bytevector-u32-native-ref '#(3 252 5 0 0 0 0) 0))
  (error? (begin (bytevector-u32-native-ref '#(3 252 5 0 0 0 0) 0) #f))

 ; invalid index
  (error? (bytevector-u32-native-ref #vu8(3 252 5 0 0 0 0) -1))
  (error? (bytevector-u32-native-ref #vu8(3 252 5 0 0 0 0) 1))
  (error? (bytevector-u32-native-ref #vu8(3 252 5 0 0 0 0) 2))
  (error? (bytevector-u32-native-ref #vu8(3 252 5 0 0 0 0) 3))
  (error? (bytevector-u32-native-ref #vu8(3 252 5 0 0 0 0) 4))
  (error? (bytevector-u32-native-ref #vu8(3 252 5 0 0 0 0) 5))
  (error? (bytevector-u32-native-ref #vu8(3 252 5 0 0 0 0) 6))
  (error? (bytevector-u32-native-ref #vu8(3 252 5 0 0 0 0) 7))
  (error? (begin (bytevector-u32-native-ref #vu8(3 252 5 0 0 0 0) 4.0) #f))

  (eqv?
    (bytevector-u32-native-ref #vu8(3 252 5 32 65 87 20) 0)
    (native->unsigned 3 252 5 32))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-u32-native-ref v 0)
        (bytevector-u32-native-ref v 4)
        (bytevector-u32-native-ref v 8)
        (bytevector-u32-native-ref v 12)))
    (list
      (native->unsigned 30 100 200 250)
      (native->unsigned 249 199 99 29)
      (native->unsigned 248 189 190 207)
      (native->unsigned 24 25 26 27)))

  (test-cp0-expansion eqv?
    '(bytevector-u32-native-ref #vu8(3 252 5 32 65 87 20) 0)
    (native->unsigned 3 252 5 32))
  (equal?
    (cdr (parameterize ([optimize-level 2] [enable-cp0 #t] [#%$suppress-primitive-inlining #f])
           (expand/optimize '(let ([v '#vu8(30 100 200 250
                                             249 199 99 29
                                             248 189 190 207
                                             24 25 26 27
                                             28 29 30)])
                               (list
                                 (bytevector-u32-native-ref v 0)
                                 (bytevector-u32-native-ref v 4)
                                 (bytevector-u32-native-ref v 8)
                                 (bytevector-u32-native-ref v 12))))))
    (list
      (native->unsigned 30 100 200 250)
      (native->unsigned 249 199 99 29)
      (native->unsigned 248 189 190 207)
      (native->unsigned 24 25 26 27)))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
      (unless (eqv? (bytevector-u32-native-ref (apply bytevector ls) 0)
                    (apply native->unsigned ls))
        (errorf #f "failed for ~s" ls))))
)

(mat bytevector-s32-native-set!
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-s32-native-set!))
  (error? (bytevector-s32-native-set! $v1))
  (error? (bytevector-s32-native-set! $v1 0))
  (error? (begin (bytevector-s32-native-set! $v1 0 0 15) #f))

 ; not a bytevector
  (error? (bytevector-s32-native-set! (make-vector 10) 0 0))
  (error? (begin (bytevector-s32-native-set! (make-vector 10) 0 0) #f))

 ; invalid index
  (error? (bytevector-s32-native-set! $v1 -1 0))
  (error? (bytevector-s32-native-set! $v1 1 0))
  (error? (bytevector-s32-native-set! $v1 2 0))
  (error? (bytevector-s32-native-set! $v1 3 0))
  (error? (bytevector-s32-native-set! $v1 5 0))
  (error? (bytevector-s32-native-set! $v1 6 0))
  (error? (bytevector-s32-native-set! $v1 7 0))
  (error? (bytevector-s32-native-set! $v1 9 0))
  (error? (bytevector-s32-native-set! $v1 10 0))
  (error? (bytevector-s32-native-set! $v1 11 0))
  (error? (bytevector-s32-native-set! $v1 13 0))
  (error? (bytevector-s32-native-set! $v1 14 0))
  (error? (bytevector-s32-native-set! $v1 15 0))
  (error? (bytevector-s32-native-set! $v1 17 0))
  (error? (bytevector-s32-native-set! $v1 18 0))
  (error? (bytevector-s32-native-set! $v1 19 0))
  (error? (bytevector-s32-native-set! $v1 20 0))
  (error? (bytevector-s32-native-set! $v1 21 0))
  (error? (bytevector-s32-native-set! $v1 22 0))
  (error? (bytevector-s32-native-set! $v1 23 0))
  (error? (begin (bytevector-s32-native-set! $v1 'q 0) #f))

 ; invalid value
  (error? (bytevector-s32-native-set! $v1 0 #x80000000))
  (error? (bytevector-s32-native-set! $v1 4 #x-80000001))
  (error? (begin (bytevector-s32-native-set! $v1 8 "hello") #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

  (begin
    (bytevector-s32-native-set! $v1 0 -1)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-native-set! $v1 0 (native->signed #x80 #x00 #x00 #x00))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-native-set! $v1 0 (native->signed #x00 #x00 #x00 #x80))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x80 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-native-set! $v1 0 (native->signed #x7f #xff #xff #xff))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-native-set! $v1 0 (native->signed #xff #xff #xff #x7f))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #x7f #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-native-set! $v1 0 (native->signed #xff #xff #xff #xff))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-native-set! $v1 0 #x00000000)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-native-set! $v1 4 (native->signed #xf3 #x45 #x23 #x19))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-native-set! $v1 8 (native->signed #x23 #xc7 #x72 #xe8))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-native-set! $v1 12 (native->signed #x3a #x1c #x22 #x59))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-native-set! $v1 16 (native->signed #xe3 #xd7 #xc2 #xa9))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xe3 #xd7 #xc2 #xa9 #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
        (bytevector-s32-native-set! v 0 (apply native->signed ls))
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-u32-native-set!
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-u32-native-set!))
  (error? (bytevector-u32-native-set! $v1))
  (error? (bytevector-u32-native-set! $v1 0))
  (error? (begin (bytevector-u32-native-set! $v1 0 0 15) #f))

 ; not a bytevector
  (error? (bytevector-u32-native-set! (make-vector 10) 0 0))
  (error? (begin (bytevector-u32-native-set! (make-vector 10) 0 0) #f))

 ; invalid index
  (error? (bytevector-u32-native-set! $v1 -1 0))
  (error? (bytevector-u32-native-set! $v1 1 0))
  (error? (bytevector-u32-native-set! $v1 2 0))
  (error? (bytevector-u32-native-set! $v1 3 0))
  (error? (bytevector-u32-native-set! $v1 5 0))
  (error? (bytevector-u32-native-set! $v1 6 0))
  (error? (bytevector-u32-native-set! $v1 7 0))
  (error? (bytevector-u32-native-set! $v1 9 0))
  (error? (bytevector-u32-native-set! $v1 10 0))
  (error? (bytevector-u32-native-set! $v1 11 0))
  (error? (bytevector-u32-native-set! $v1 13 0))
  (error? (bytevector-u32-native-set! $v1 14 0))
  (error? (bytevector-u32-native-set! $v1 15 0))
  (error? (bytevector-u32-native-set! $v1 17 0))
  (error? (bytevector-u32-native-set! $v1 18 0))
  (error? (bytevector-u32-native-set! $v1 19 0))
  (error? (bytevector-u32-native-set! $v1 20 0))
  (error? (bytevector-u32-native-set! $v1 21 0))
  (error? (bytevector-u32-native-set! $v1 22 0))
  (error? (bytevector-u32-native-set! $v1 23 0))
  (error? (begin (bytevector-u32-native-set! $v1 'q 0) #f))

 ; invalid value
  (error? (bytevector-u32-native-set! $v1 0 #x100000000))
  (error? (bytevector-u32-native-set! $v1 4 #x-1))
  (error? (begin (bytevector-u32-native-set! $v1 8 "hello") #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

  (begin
    (bytevector-u32-native-set! $v1 0 #xffffffff)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-native-set! $v1 0 (native->unsigned #x80 #x00 #x00 #x00))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-native-set! $v1 0 (native->unsigned #x00 #x00 #x00 #x80))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x80 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-native-set! $v1 0 (native->unsigned #x7f #xff #xff #xff))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-native-set! $v1 0 (native->unsigned #xff #xff #xff #x7f))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #x7f #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-native-set! $v1 0 (native->unsigned #xff #xff #xff #xff))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-native-set! $v1 0 #x00000000)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-native-set! $v1 4 (native->unsigned #xf3 #x45 #x23 #x19))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-native-set! $v1 8 (native->unsigned #x23 #xc7 #x72 #xe8))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-native-set! $v1 12 (native->unsigned #x3a #x1c #x22 #x59))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-native-set! $v1 16 (native->unsigned #xe3 #xd7 #xc2 #xa9))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xe3 #xd7 #xc2 #xa9 #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
        (bytevector-u32-native-set! v 0 (apply native->unsigned ls))
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-s32-ref
 ; wrong argument count
  (error? (bytevector-s32-ref))
  (error? (bytevector-s32-ref #vu8(3 252 5 0)))
  (error? (bytevector-s32-ref #vu8(3 252 5 0) 0))
  (error? (begin (bytevector-s32-ref #vu8(3 252 5 0) 0 (native-endianness) 0) #f))

 ; not a bytevector
  (error? (bytevector-s32-ref '#(3 252 5 0 0 0 0) 0 'big))
  (error? (begin (bytevector-s32-ref '#(3 252 5 0 0 0 0) 0 'big) #f))

 ; invalid index
  (error? (bytevector-s32-ref #vu8(3 252 5 0 0 0 0) -1 'big))
  (error? (bytevector-s32-ref #vu8(3 252 5 0 0 0 0) 6 'little))
  (error? (bytevector-s32-ref #vu8(3 252 5 0 0 0 0) 7 (native-endianness)))
  (error? (begin (bytevector-s32-ref #vu8(3 252 5 0 0 0 0) 4.0 'little) #f))

 ; invalid endianness
  (error? (bytevector-s32-ref $v1 0 'bigger))
  (error? (bytevector-s32-ref $v1 0 "little"))
  (error? (begin (bytevector-s32-ref $v1 0 #t) #f))

 ; aligned accesses, endianness native
  (eqv?
    (bytevector-s32-ref #vu8(3 252 5 32 65 87 20) 0 (native-endianness))
    (native->signed 3 252 5 32))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-s32-ref v 0 (native-endianness))
        (bytevector-s32-ref v 4 (native-endianness))
        (bytevector-s32-ref v 8 (native-endianness))
        (bytevector-s32-ref v 12 (native-endianness))))
    (list
      (native->signed 30 100 200 250)
      (native->signed 249 199 99 29)
      (native->signed 248 189 190 207)
      (native->signed 24 25 26 27)))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
      (unless (eqv? (bytevector-s32-ref (apply bytevector ls) 0 (native-endianness))
                    (apply native->signed ls))
        (errorf #f "failed for ~s" ls))))

 ; aligned accesses, endianness big
  (eqv?
    (bytevector-s32-ref #vu8(3 252 5 32 65 87 20) 0 'big)
    (big-endian->signed 3 252 5 32))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-s32-ref v 0 'big)
        (bytevector-s32-ref v 4 'big)
        (bytevector-s32-ref v 8 'big)
        (bytevector-s32-ref v 12 'big)))
    (list
      (big-endian->signed 30 100 200 250)
      (big-endian->signed 249 199 99 29)
      (big-endian->signed 248 189 190 207)
      (big-endian->signed 24 25 26 27)))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
      (unless (eqv? (bytevector-s32-ref (apply bytevector ls) 0 'big)
                    (apply big-endian->signed ls))
        (errorf #f "failed for ~s" ls))))

 ; aligned accesses, endianness little
  (eqv?
    (bytevector-s32-ref #vu8(3 252 5 32 65 87 20) 0 'little)
    (little-endian->signed 3 252 5 32))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-s32-ref v 0 'little)
        (bytevector-s32-ref v 4 'little)
        (bytevector-s32-ref v 8 'little)
        (bytevector-s32-ref v 12 'little)))
    (list
      (little-endian->signed 30 100 200 250)
      (little-endian->signed 249 199 99 29)
      (little-endian->signed 248 189 190 207)
      (little-endian->signed 24 25 26 27)))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
      (unless (eqv? (bytevector-s32-ref (apply bytevector ls) 0 'little)
                    (apply little-endian->signed ls))
        (errorf #f "failed for ~s" ls))))

 ; unaligned accesses, endianness mixed
  (eqv?
    (bytevector-s32-ref #vu8(3 252 5 32 65 87 20) 3 (native-endianness))
    (native->signed 32 65 87 20))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-s32-ref v 1 'little)
        (bytevector-s32-ref v 6 'big)
        (bytevector-s32-ref v 11 (native-endianness))
        (bytevector-s32-ref v 15 'little)))
    (list
      (little-endian->signed 100 200 250 249)
      (big-endian->signed 99 29 248 189)
      (native->signed 207 24 25 26)
      (little-endian->signed 27 28 29 30)))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 5))])
      (unless (eqv? (bytevector-s32-ref (apply bytevector ls) 1 (native-endianness))
                    (apply native->signed (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (bytevector-s32-ref (apply bytevector ls) 1 'little)
                    (apply little-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (bytevector-s32-ref (apply bytevector ls) 1 'big)
                    (apply big-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))
)

(mat bytevector-u32-ref
 ; wrong argument count
  (error? (bytevector-u32-ref))
  (error? (bytevector-u32-ref #vu8(3 252 5 0)))
  (error? (bytevector-u32-ref #vu8(3 252 5 0) 0))
  (error? (begin (bytevector-u32-ref #vu8(3 252 5 0) 0 (native-endianness) 0) #f))

 ; not a bytevector
  (error? (bytevector-u32-ref '#(3 252 5 0 0 0 0) 0 'big))
  (error? (begin (bytevector-u32-ref '#(3 252 5 0 0 0 0) 0 'big) #f))

 ; invalid index
  (error? (bytevector-u32-ref #vu8(3 252 5 0 0 0 0) -1 'big))
  (error? (bytevector-u32-ref #vu8(3 252 5 0 0 0 0) 6 'little))
  (error? (bytevector-u32-ref #vu8(3 252 5 0 0 0 0) 7 (native-endianness)))
  (error? (begin (bytevector-u32-ref #vu8(3 252 5 0 0 0 0) 4.0 'little) #f))

 ; invalid endianness
  (error? (bytevector-u32-ref $v1 0 'bigger))
  (error? (bytevector-u32-ref $v1 0 "little"))
  (error? (begin (bytevector-u32-ref $v1 0 #t) #f))

 ; aligned accesses, endianness native
  (eqv?
    (bytevector-u32-ref #vu8(3 252 5 32 65 87 20) 0 (native-endianness))
    (native->unsigned 3 252 5 32))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-u32-ref v 0 (native-endianness))
        (bytevector-u32-ref v 4 (native-endianness))
        (bytevector-u32-ref v 8 (native-endianness))
        (bytevector-u32-ref v 12 (native-endianness))))
    (list
      (native->unsigned 30 100 200 250)
      (native->unsigned 249 199 99 29)
      (native->unsigned 248 189 190 207)
      (native->unsigned 24 25 26 27)))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
      (unless (eqv? (bytevector-u32-ref (apply bytevector ls) 0 (native-endianness))
                    (apply native->unsigned ls))
        (errorf #f "failed for ~s" ls))))

 ; aligned accesses, endianness big
  (eqv?
    (bytevector-u32-ref #vu8(3 252 5 32 65 87 20) 0 'big)
    (big-endian->unsigned 3 252 5 32))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-u32-ref v 0 'big)
        (bytevector-u32-ref v 4 'big)
        (bytevector-u32-ref v 8 'big)
        (bytevector-u32-ref v 12 'big)))
    (list
      (big-endian->unsigned 30 100 200 250)
      (big-endian->unsigned 249 199 99 29)
      (big-endian->unsigned 248 189 190 207)
      (big-endian->unsigned 24 25 26 27)))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
      (unless (eqv? (bytevector-u32-ref (apply bytevector ls) 0 'big)
                    (apply big-endian->unsigned ls))
        (errorf #f "failed for ~s" ls))))

 ; aligned accesses, endianness little
  (eqv?
    (bytevector-u32-ref #vu8(3 252 5 32 65 87 20) 0 'little)
    (little-endian->unsigned 3 252 5 32))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-u32-ref v 0 'little)
        (bytevector-u32-ref v 4 'little)
        (bytevector-u32-ref v 8 'little)
        (bytevector-u32-ref v 12 'little)))
    (list
      (little-endian->unsigned 30 100 200 250)
      (little-endian->unsigned 249 199 99 29)
      (little-endian->unsigned 248 189 190 207)
      (little-endian->unsigned 24 25 26 27)))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
      (unless (eqv? (bytevector-u32-ref (apply bytevector ls) 0 'little)
                    (apply little-endian->unsigned ls))
        (errorf #f "failed for ~s" ls))))

 ; unaligned accesses, endianness mixed
  (eqv?
    (bytevector-u32-ref #vu8(3 252 5 32 65 87 20) 3 (native-endianness))
    (native->unsigned 32 65 87 20))
  (equal?
    (let ([v '#vu8(30 100 200 250
                   249 199 99 29
                   248 189 190 207
                   24 25 26 27
                   28 29 30)])
      (list
        (bytevector-u32-ref v 1 'little)
        (bytevector-u32-ref v 6 'big)
        (bytevector-u32-ref v 11 (native-endianness))
        (bytevector-u32-ref v 15 'little)))
    (list
      (little-endian->unsigned 100 200 250 249)
      (big-endian->unsigned 99 29 248 189)
      (native->unsigned 207 24 25 26)
      (little-endian->unsigned 27 28 29 30)))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 5))])
      (unless (eqv? (bytevector-u32-ref (apply bytevector ls) 1 (native-endianness))
                    (apply native->unsigned (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (bytevector-u32-ref (apply bytevector ls) 1 'little)
                    (apply little-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (bytevector-u32-ref (apply bytevector ls) 1 'big)
                    (apply big-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))
)

(mat bytevector-s32-set!
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-s32-set!))
  (error? (bytevector-s32-set! $v1))
  (error? (bytevector-s32-set! $v1 0))
  (error? (bytevector-s32-set! $v1 0 0))
  (error? (begin (bytevector-s32-set! $v1 0 0 'big 0) #f))

 ; not a bytevector
  (error? (bytevector-s32-set! (make-vector 10) 0 0 (native-endianness)))
  (error? (begin (bytevector-s32-set! (make-vector 10) 0 0 (native-endianness)) #f))

 ; invalid index
  (error? (bytevector-s32-set! $v1 -1 0 'big))
  (error? (bytevector-s32-set! $v1 20 0 'little))
  (error? (bytevector-s32-set! $v1 21 0 (native-endianness)))
  (error? (bytevector-s32-set! $v1 22 0 'little))
  (error? (bytevector-s32-set! $v1 23 0 (native-endianness)))
  (error? (begin (bytevector-s32-set! $v1 'q 0 'big) #f))

 ; invalid value
  (error? (bytevector-s32-set! $v1 0 #x80000000 'big))
  (error? (bytevector-s32-set! $v1 4 #x-80000001 (native-endianness)))
  (error? (begin (bytevector-s32-set! $v1 8 "hello" 'little) #f))

 ; invalid endianness
  (error? (bytevector-s32-set! $v1 0 #x7ffffff 'huge))
  (error? (bytevector-s32-set! $v1 4 #x-80000000 "tiny"))
  (error? (begin (bytevector-s32-set! $v1 8 0 $v1) #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

 ; aligned accesses, endianness native
  (begin
    (bytevector-s32-set! $v1 0 -1 (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (native->signed #x80 #x00 #x00 #x00) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (native->signed #x00 #x00 #x00 #x80) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x80 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (native->signed #x7f #xff #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (native->signed #xff #xff #xff #x7f) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #x7f #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (native->signed #xff #xff #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 #x00000000 (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 4 (native->signed #xf3 #x45 #x23 #x19) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 8 (native->signed #x23 #xc7 #x72 #xe8) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 12 (native->signed #x3a #x1c #x22 #x59) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 16 (native->signed #xe3 #xd7 #xc2 #xa9) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xe3 #xd7 #xc2 #xa9 #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
        (bytevector-s32-set! v 0 (apply native->signed ls) (native-endianness))
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; aligned accesses, endianness big
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s32-set! $v1 0 -1 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (big-endian->signed #x80 #x00 #x00 #x00) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (big-endian->signed #x00 #x00 #x00 #x80) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x80 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (big-endian->signed #x7f #xff #xff #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (big-endian->signed #xff #xff #xff #x7f) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #x7f #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (big-endian->signed #xff #xff #xff #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 #x00000000 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 4 (big-endian->signed #xf3 #x45 #x23 #x19) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 8 (big-endian->signed #x23 #xc7 #x72 #xe8) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 12 (big-endian->signed #x3a #x1c #x22 #x59) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 16 (big-endian->signed #xe3 #xd7 #xc2 #xa9) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xe3 #xd7 #xc2 #xa9 #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
        (bytevector-s32-set! v 0 (apply big-endian->signed ls) 'big)
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; aligned accesses, endianness little
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s32-set! $v1 0 -1 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (little-endian->signed #x80 #x00 #x00 #x00) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (little-endian->signed #x00 #x00 #x00 #x80) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x80 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (little-endian->signed #x7f #xff #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (little-endian->signed #xff #xff #xff #x7f) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #x7f #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 (little-endian->signed #xff #xff #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 0 #x00000000 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 4 (little-endian->signed #xf3 #x45 #x23 #x19) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 8 (little-endian->signed #x23 #xc7 #x72 #xe8) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 12 (little-endian->signed #x3a #x1c #x22 #x59) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 16 (little-endian->signed #xe3 #xd7 #xc2 #xa9) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xe3 #xd7 #xc2 #xa9 #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
        (bytevector-s32-set! v 0 (apply little-endian->signed ls) 'little)
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; unaligned accesses, endianness mixed
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s32-set! $v1 1 -1 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xff #xff #xff #xff #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 1 (little-endian->signed #x80 #x00 #x00 #x00) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x80 #x00 #x00 #x00 #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 1 (native->signed #x00 #x00 #x00 #x80) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #x80 #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 1 (native->signed #x7f #xff #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x7f #xff #xff #xff #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 1 (big-endian->signed #xff #xff #xff #x7f) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xff #xff #xff #x7f #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 1 (little-endian->signed #xff #xff #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xff #xff #xff #xff #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 1 #x00000000 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #x00 #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 5 (native->signed #xf3 #x45 #x23 #x19) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #x00 #xf3 #x45 #x23
                        #x19 #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 10 (little-endian->signed #x23 #xc7 #x72 #xe8) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #x00 #xf3 #x45 #x23
                        #x19 #xad #x23 #xc7 #x72 #xe8 #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 15 (big-endian->signed #x3a #x1c #x22 #x59) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #x00 #xf3 #x45 #x23
                        #x19 #xad #x23 #xc7 #x72 #xe8 #xad #x3a
                        #x1c #x22 #x59 #xad #xad #xad #xad))))
  (begin
    (bytevector-s32-set! $v1 19 (little-endian->signed #xe3 #xd7 #xc2 #xa9) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #x00 #xf3 #x45 #x23
                        #x19 #xad #x23 #xc7 #x72 #xe8 #xad #x3a
                        #x1c #x22 #x59 #xe3 #xd7 #xc2 #xa9))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
        (bytevector-s32-set! v 1 (apply big-endian->signed ls) 'big)
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (bytevector-s32-set! v 1 (apply little-endian->signed (reverse ls)) 'little)
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (bytevector-s32-set! v 1 (apply native->signed ls) (native-endianness))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-u32-set!
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-u32-set!))
  (error? (bytevector-u32-set! $v1))
  (error? (bytevector-u32-set! $v1 0))
  (error? (bytevector-u32-set! $v1 0 0))
  (error? (if (bytevector-u32-set! $v1 0 0 'big 0) #f #t))

 ; not a bytevector
  (error? (bytevector-u32-set! (make-vector 10) 0 0 (native-endianness)))
  (error? (if (bytevector-u32-set! (make-vector 10) 0 0 (native-endianness)) #f #t))

 ; invalid index
  (error? (bytevector-u32-set! $v1 -1 0 'big))
  (error? (bytevector-u32-set! $v1 20 0 'little))
  (error? (bytevector-u32-set! $v1 21 0 (native-endianness)))
  (error? (bytevector-u32-set! $v1 22 0 'little))
  (error? (bytevector-u32-set! $v1 23 0 (native-endianness)))
  (error? (if (bytevector-u32-set! $v1 'q 0 'big) #f #t))

 ; invalid value
  (error? (bytevector-u32-set! $v1 0 #x100000000 'big))
  (error? (bytevector-u32-set! $v1 4 #x-1 (native-endianness)))
  (error? (if (bytevector-u32-set! $v1 8 "hello" 'little) #f #t))

 ; invalid endianness
  (error? (bytevector-u32-set! $v1 0 #xfffffff 'huge))
  (error? (bytevector-u32-set! $v1 4 0 "tiny"))
  (error? (if (bytevector-u32-set! $v1 8 0 $v1) #f #t))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

 ; aligned accesses, endianness native
  (begin
    (bytevector-u32-set! $v1 0 #xffffffff (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (native->unsigned #x80 #x00 #x00 #x00) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (native->unsigned #x00 #x00 #x00 #x80) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x80 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (native->unsigned #x7f #xff #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (native->unsigned #xff #xff #xff #x7f) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #x7f #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (native->unsigned #xff #xff #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 #x00000000 (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 4 (native->unsigned #xf3 #x45 #x23 #x19) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 8 (native->unsigned #x23 #xc7 #x72 #xe8) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 12 (native->unsigned #x3a #x1c #x22 #x59) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 16 (native->unsigned #xe3 #xd7 #xc2 #xa9) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xe3 #xd7 #xc2 #xa9 #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
        (bytevector-u32-set! v 0 (apply native->unsigned ls) (native-endianness))
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; aligned accesses, endianness big
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u32-set! $v1 0 #xffffffff 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (big-endian->unsigned #x80 #x00 #x00 #x00) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (big-endian->unsigned #x00 #x00 #x00 #x80) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x80 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (big-endian->unsigned #x7f #xff #xff #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (big-endian->unsigned #xff #xff #xff #x7f) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #x7f #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (big-endian->unsigned #xff #xff #xff #xff) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 #x00000000 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 4 (big-endian->unsigned #xf3 #x45 #x23 #x19) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 8 (big-endian->unsigned #x23 #xc7 #x72 #xe8) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 12 (big-endian->unsigned #x3a #x1c #x22 #x59) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 16 (big-endian->unsigned #xe3 #xd7 #xc2 #xa9) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xe3 #xd7 #xc2 #xa9 #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
        (bytevector-u32-set! v 0 (apply big-endian->unsigned ls) 'big)
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; aligned accesses, endianness little
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u32-set! $v1 0 #xffffffff 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (little-endian->unsigned #x80 #x00 #x00 #x00) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (little-endian->unsigned #x00 #x00 #x00 #x80) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x80 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (little-endian->unsigned #x7f #xff #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x7f #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (little-endian->unsigned #xff #xff #xff #x7f) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #x7f #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 (little-endian->unsigned #xff #xff #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xff #xff #xff #xff #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 0 #x00000000 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 4 (little-endian->unsigned #xf3 #x45 #x23 #x19) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 8 (little-endian->unsigned #x23 #xc7 #x72 #xe8) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 12 (little-endian->unsigned #x3a #x1c #x22 #x59) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 16 (little-endian->unsigned #xe3 #xd7 #xc2 #xa9) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #xf3 #x45 #x23 #x19
                        #x23 #xc7 #x72 #xe8 #x3a #x1c #x22 #x59
                        #xe3 #xd7 #xc2 #xa9 #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
        (bytevector-u32-set! v 0 (apply little-endian->unsigned ls) 'little)
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; unaligned accesses, endianness mixed
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u32-set! $v1 1 #xffffffff 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xff #xff #xff #xff #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 1 (little-endian->unsigned #x80 #x00 #x00 #x00) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x80 #x00 #x00 #x00 #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 1 (native->unsigned #x00 #x00 #x00 #x80) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #x80 #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 1 (native->unsigned #x7f #xff #xff #xff) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x7f #xff #xff #xff #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 1 (big-endian->unsigned #xff #xff #xff #x7f) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xff #xff #xff #x7f #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 1 (little-endian->unsigned #xff #xff #xff #xff) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xff #xff #xff #xff #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 1 #x00000000 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #x00 #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 5 (native->unsigned #xf3 #x45 #x23 #x19) (native-endianness))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #x00 #xf3 #x45 #x23
                        #x19 #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 10 (little-endian->unsigned #x23 #xc7 #x72 #xe8) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #x00 #xf3 #x45 #x23
                        #x19 #xad #x23 #xc7 #x72 #xe8 #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 15 (big-endian->unsigned #x3a #x1c #x22 #x59) 'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #x00 #xf3 #x45 #x23
                        #x19 #xad #x23 #xc7 #x72 #xe8 #xad #x3a
                        #x1c #x22 #x59 #xad #xad #xad #xad))))
  (begin
    (bytevector-u32-set! $v1 19 (little-endian->unsigned #xe3 #xd7 #xc2 #xa9) 'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #x00 #x00 #x00 #x00 #xf3 #x45 #x23
                        #x19 #xad #x23 #xc7 #x72 #xe8 #xad #x3a
                        #x1c #x22 #x59 #xe3 #xd7 #xc2 #xa9))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 4))])
        (bytevector-u32-set! v 1 (apply big-endian->unsigned ls) 'big)
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (bytevector-u32-set! v 1 (apply little-endian->unsigned (reverse ls)) 'little)
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (bytevector-u32-set! v 1 (apply native->unsigned ls) (native-endianness))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-s40-ref
 ; wrong argument count
  (error? (bytevector-s40-ref))
  (error? (bytevector-s40-ref #vu8(3 252 5 0 0)))
  (error? (bytevector-s40-ref #vu8(3 252 5 0 0) 0))
  (error? (begin (bytevector-s40-ref #vu8(3 252 5 0 0) 0 (native-endianness) 0) #f))

 ; not a bytevector
  (error? (bytevector-s40-ref '#(3 252 5 0 0 0 0) 0 'big))
  (error? (begin (bytevector-s40-ref '#(3 252 5 0 0 0 0) 0 'big) #f))

 ; invalid index
  (error? (bytevector-s40-ref #vu8(3 252 5 0 0 0 0) -1 'big))
  (error? (bytevector-s40-ref #vu8(3 252 5 0 0 0 0) 3 'little))
  (error? (bytevector-s40-ref #vu8(3 252 5 0 0 0 0) 7 (native-endianness)))
  (error? (begin (bytevector-s40-ref #vu8(3 252 5 0 0 0 0) 4.0 'little) #f))

 ; invalid endianness
  (error? (bytevector-s40-ref #vu8(0 1 2 3 4 5 6 7) 0 'bigger))
  (error? (bytevector-s40-ref #vu8(0 1 2 3 4 5 6 7) 0 "little"))
  (error? (begin (bytevector-s40-ref #vu8(0 1 2 3 4 5 6 7) 0 #t) #f))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 6))])
      (unless (eqv? (bytevector-s40-ref (apply bytevector ls) 1 (native-endianness))
                    (apply native->signed (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (bytevector-s40-ref (apply bytevector ls) 1 'little)
                    (apply little-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (bytevector-s40-ref (apply bytevector ls) 1 'big)
                    (apply big-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 6))])
      (unless (eqv? (eval `(bytevector-s40-ref ,(apply bytevector ls) 1 (native-endianness)))
                    (apply native->signed (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (eval `(bytevector-s40-ref ,(apply bytevector ls) 1 'little))
                    (apply little-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (eval `(bytevector-s40-ref ,(apply bytevector ls) 1 'big))
                    (apply big-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))
)

(mat bytevector-u40-ref
 ; wrong argument count
  (error? (bytevector-u40-ref))
  (error? (bytevector-u40-ref #vu8(3 252 5 0 0)))
  (error? (bytevector-u40-ref #vu8(3 252 5 0 0) 0))
  (error? (begin (bytevector-u40-ref #vu8(3 252 5 0 0) 0 (native-endianness) 0) #f))

 ; not a bytevector
  (error? (bytevector-u40-ref '#(3 252 5 0 0 0 0) 0 'big))
  (error? (begin (bytevector-u40-ref '#(3 252 5 0 0 0 0) 0 'big) #f))

 ; invalid index
  (error? (bytevector-u40-ref #vu8(3 252 5 0 0 0 0) -1 'big))
  (error? (bytevector-u40-ref #vu8(3 252 5 0 0 0 0) 3 'little))
  (error? (bytevector-u40-ref #vu8(3 252 5 0 0 0 0) 7 (native-endianness)))
  (error? (begin (bytevector-u40-ref #vu8(3 252 5 0 0 0 0) 4.0 'little) #f))

 ; invalid endianness
  (error? (bytevector-u40-ref #vu8(0 1 2 3 4 5 6 7) 0 'bigger))
  (error? (bytevector-u40-ref #vu8(0 1 2 3 4 5 6 7) 0 "little"))
  (error? (begin (bytevector-u40-ref #vu8(0 1 2 3 4 5 6 7) 0 #t) #f))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 6))])
      (unless (eqv? (bytevector-u40-ref (apply bytevector ls) 1 (native-endianness))
                    (apply native->unsigned (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (bytevector-u40-ref (apply bytevector ls) 1 'little)
                    (apply little-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (bytevector-u40-ref (apply bytevector ls) 1 'big)
                    (apply big-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 6))])
      (unless (eqv? (eval `(bytevector-u40-ref ,(apply bytevector ls) 1 (native-endianness)))
                    (apply native->unsigned (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (eval `(bytevector-u40-ref ,(apply bytevector ls) 1 'little))
                    (apply little-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (eval `(bytevector-u40-ref ,(apply bytevector ls) 1 'big))
                    (apply big-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))
)

(mat bytevector-s40-set!
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-s40-set!))
  (error? (bytevector-s40-set! $v1))
  (error? (bytevector-s40-set! $v1 0))
  (error? (bytevector-s40-set! $v1 0 0))
  (error? (begin (bytevector-s40-set! $v1 0 0 'big 0) #f))

 ; not a bytevector
  (error? (bytevector-s40-set! (make-vector 10) 0 0 (native-endianness)))
  (error? (begin (bytevector-s40-set! (make-vector 10) 0 0 (native-endianness)) #f))

 ; invalid index
  (error? (bytevector-s40-set! $v1 -1 0 'big))
  (error? (bytevector-s40-set! $v1 19 0 (native-endianness)))
  (error? (bytevector-s40-set! $v1 22 0 'little))
  (error? (bytevector-s40-set! $v1 23 0 (native-endianness)))
  (error? (begin (bytevector-s40-set! $v1 'q 0 'big) #f))

 ; invalid value
  (error? (bytevector-s40-set! $v1 0 (expt 2 39) 'big))
  (error? (bytevector-s40-set! $v1 4 (- -1 (expt 2 39)) (native-endianness)))
  (error? (begin (bytevector-s40-set! $v1 8 "hello" 'little) #f))

 ; invalid endianness
  (error? (bytevector-s40-set! $v1 0 #x7ffffff 'huge))
  (error? (bytevector-s40-set! $v1 4 #x-80000000 "tiny"))
  (error? (begin (bytevector-s40-set! $v1 8 0 $v1) #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 5))])
        (bytevector-s40-set! v 1 (apply big-endian->signed ls) 'big)
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (bytevector-s40-set! v 1 (apply little-endian->signed (reverse ls)) 'little)
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (bytevector-s40-set! v 1 (apply native->signed ls) (native-endianness))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 5))])
        (eval `(bytevector-s40-set! ,v 1 ,(apply big-endian->signed ls) 'big))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-s40-set! ,v 1 ,(apply little-endian->signed (reverse ls)) 'little))
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-s40-set! ,v 1 ,(apply native->signed ls) (native-endianness)))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-u40-set!
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-u40-set!))
  (error? (bytevector-u40-set! $v1))
  (error? (bytevector-u40-set! $v1 0))
  (error? (bytevector-u40-set! $v1 0 0))
  (error? (begin (bytevector-u40-set! $v1 0 0 'big 0) #f))

 ; not a bytevector
  (error? (bytevector-u40-set! (make-vector 10) 0 0 (native-endianness)))
  (error? (begin (bytevector-u40-set! (make-vector 10) 0 0 (native-endianness)) #f))

 ; invalid index
  (error? (bytevector-u40-set! $v1 -1 0 'big))
  (error? (bytevector-u40-set! $v1 19 0 (native-endianness)))
  (error? (bytevector-u40-set! $v1 22 0 'little))
  (error? (bytevector-u40-set! $v1 23 0 (native-endianness)))
  (error? (begin (bytevector-u40-set! $v1 'q 0 'big) #f))

 ; invalid value
  (error? (bytevector-u40-set! $v1 0 (expt 2 40) 'big))
  (error? (bytevector-u40-set! $v1 4 -1 (native-endianness)))
  (error? (begin (bytevector-u40-set! $v1 8 "hello" 'little) #f))

 ; invalid endianness
  (error? (bytevector-u40-set! $v1 0 0 'huge))
  (error? (bytevector-u40-set! $v1 4 0 "tiny"))
  (error? (begin (bytevector-u40-set! $v1 8 0 $v1) #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 5))])
        (bytevector-u40-set! v 1 (apply big-endian->unsigned ls) 'big)
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (bytevector-u40-set! v 1 (apply little-endian->unsigned (reverse ls)) 'little)
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (bytevector-u40-set! v 1 (apply native->unsigned ls) (native-endianness))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 5))])
        (eval `(bytevector-u40-set! ,v 1 ,(apply big-endian->unsigned ls) 'big))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-u40-set! ,v 1 ,(apply little-endian->unsigned (reverse ls)) 'little))
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-u40-set! ,v 1 ,(apply native->unsigned ls) (native-endianness)))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-s48-ref
 ; wrong argument count
  (error? (bytevector-s48-ref))
  (error? (bytevector-s48-ref #vu8(3 252 5 0 0 0)))
  (error? (bytevector-s48-ref #vu8(3 252 5 0 0 0) 0))
  (error? (begin (bytevector-s48-ref #vu8(3 252 5 0 0 0) 0 (native-endianness) 0) #f))

 ; not a bytevector
  (error? (bytevector-s48-ref '#(3 252 5 0 0 0 0) 0 'big))
  (error? (begin (bytevector-s48-ref '#(3 252 5 0 0 0 0) 0 'big) #f))

 ; invalid index
  (error? (bytevector-s48-ref #vu8(3 252 5 0 0 0 0) -1 'big))
  (error? (bytevector-s48-ref #vu8(3 252 5 0 0 0 0) 2 'little))
  (error? (bytevector-s48-ref #vu8(3 252 5 0 0 0 0) 7 (native-endianness)))
  (error? (begin (bytevector-s48-ref #vu8(3 252 5 0 0 0 0) 4.0 'little) #f))

 ; invalid endianness
  (error? (bytevector-s48-ref #vu8(0 1 2 3 4 5 6 7) 0 'bigger))
  (error? (bytevector-s48-ref #vu8(0 1 2 3 4 5 6 7) 0 "little"))
  (error? (begin (bytevector-s48-ref #vu8(0 1 2 3 4 5 6 7) 0 #t) #f))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 7))])
      (unless (eqv? (bytevector-s48-ref (apply bytevector ls) 1 (native-endianness))
                    (apply native->signed (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (bytevector-s48-ref (apply bytevector ls) 1 'little)
                    (apply little-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (bytevector-s48-ref (apply bytevector ls) 1 'big)
                    (apply big-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 7))])
      (unless (eqv? (eval `(bytevector-s48-ref ,(apply bytevector ls) 1 (native-endianness)))
                    (apply native->signed (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (eval `(bytevector-s48-ref ,(apply bytevector ls) 1 'little))
                    (apply little-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (eval `(bytevector-s48-ref ,(apply bytevector ls) 1 'big))
                    (apply big-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))
)

(mat bytevector-u48-ref
 ; wrong argument count
  (error? (bytevector-u48-ref))
  (error? (bytevector-u48-ref #vu8(3 252 5 0 0 0)))
  (error? (bytevector-u48-ref #vu8(3 252 5 0 0 0) 0))
  (error? (begin (bytevector-u48-ref #vu8(3 252 5 0 0 0) 0 (native-endianness) 0) #f))

 ; not a bytevector
  (error? (bytevector-u48-ref '#(3 252 5 0 0 0 0) 0 'big))
  (error? (begin (bytevector-u48-ref '#(3 252 5 0 0 0 0) 0 'big) #f))

 ; invalid index
  (error? (bytevector-u48-ref #vu8(3 252 5 0 0 0 0) -1 'big))
  (error? (bytevector-u48-ref #vu8(3 252 5 0 0 0 0) 2 'little))
  (error? (bytevector-u48-ref #vu8(3 252 5 0 0 0 0) 7 (native-endianness)))
  (error? (begin (bytevector-u48-ref #vu8(3 252 5 0 0 0 0) 4.0 'little) #f))

 ; invalid endianness
  (error? (bytevector-u48-ref #vu8(0 1 2 3 4 5 6 7) 0 'bigger))
  (error? (bytevector-u48-ref #vu8(0 1 2 3 4 5 6 7) 0 "little"))
  (error? (begin (bytevector-u48-ref #vu8(0 1 2 3 4 5 6 7) 0 #t) #f))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 7))])
      (unless (eqv? (bytevector-u48-ref (apply bytevector ls) 1 (native-endianness))
                    (apply native->unsigned (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (bytevector-u48-ref (apply bytevector ls) 1 'little)
                    (apply little-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (bytevector-u48-ref (apply bytevector ls) 1 'big)
                    (apply big-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 7))])
      (unless (eqv? (eval `(bytevector-u48-ref ,(apply bytevector ls) 1 (native-endianness)))
                    (apply native->unsigned (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (eval `(bytevector-u48-ref ,(apply bytevector ls) 1 'little))
                    (apply little-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (eval `(bytevector-u48-ref ,(apply bytevector ls) 1 'big))
                    (apply big-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))
)

(mat bytevector-s48-set!
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-s48-set!))
  (error? (bytevector-s48-set! $v1))
  (error? (bytevector-s48-set! $v1 0))
  (error? (bytevector-s48-set! $v1 0 0))
  (error? (begin (bytevector-s48-set! $v1 0 0 'big 0) #f))

 ; not a bytevector
  (error? (bytevector-s48-set! (make-vector 10) 0 0 (native-endianness)))
  (error? (begin (bytevector-s48-set! (make-vector 10) 0 0 (native-endianness)) #f))

 ; invalid index
  (error? (bytevector-s48-set! $v1 -1 0 'big))
  (error? (bytevector-s48-set! $v1 18 0 (native-endianness)))
  (error? (bytevector-s48-set! $v1 22 0 'little))
  (error? (bytevector-s48-set! $v1 23 0 (native-endianness)))
  (error? (begin (bytevector-s48-set! $v1 'q 0 'big) #f))

 ; invalid value
  (error? (bytevector-s48-set! $v1 0 (expt 2 47) 'big))
  (error? (bytevector-s48-set! $v1 4 (- -1 (expt 2 47)) (native-endianness)))
  (error? (begin (bytevector-s48-set! $v1 8 "hello" 'little) #f))

 ; invalid endianness
  (error? (bytevector-s48-set! $v1 0 0 'huge))
  (error? (bytevector-s48-set! $v1 4 0 "tiny"))
  (error? (begin (bytevector-s48-set! $v1 8 0 $v1) #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 6))])
        (bytevector-s48-set! v 1 (apply big-endian->signed ls) 'big)
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (bytevector-s48-set! v 1 (apply little-endian->signed (reverse ls)) 'little)
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (bytevector-s48-set! v 1 (apply native->signed ls) (native-endianness))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 6))])
        (eval `(bytevector-s48-set! ,v 1 ,(apply big-endian->signed ls) 'big))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-s48-set! ,v 1 ,(apply little-endian->signed (reverse ls)) 'little))
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-s48-set! ,v 1 ,(apply native->signed ls) (native-endianness)))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-u48-set!
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-u48-set!))
  (error? (bytevector-u48-set! $v1))
  (error? (bytevector-u48-set! $v1 0))
  (error? (bytevector-u48-set! $v1 0 0))
  (error? (begin (bytevector-u48-set! $v1 0 0 'big 0) #f))

 ; not a bytevector
  (error? (bytevector-u48-set! (make-vector 10) 0 0 (native-endianness)))
  (error? (begin (bytevector-u48-set! (make-vector 10) 0 0 (native-endianness)) #f))

 ; invalid index
  (error? (bytevector-u48-set! $v1 -1 0 'big))
  (error? (bytevector-u48-set! $v1 18 0 (native-endianness)))
  (error? (bytevector-u48-set! $v1 22 0 'little))
  (error? (bytevector-u48-set! $v1 23 0 (native-endianness)))
  (error? (begin (bytevector-u48-set! $v1 'q 0 'big) #f))

 ; invalid value
  (error? (bytevector-u48-set! $v1 0 (expt 2 48) 'big))
  (error? (bytevector-u48-set! $v1 4 -1 (native-endianness)))
  (error? (begin (bytevector-u48-set! $v1 8 "hello" 'little) #f))

 ; invalid endianness
  (error? (bytevector-u48-set! $v1 0 0 'huge))
  (error? (bytevector-u48-set! $v1 4 0 "tiny"))
  (error? (begin (bytevector-u48-set! $v1 8 0 $v1) #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 6))])
        (bytevector-u48-set! v 1 (apply big-endian->unsigned ls) 'big)
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (bytevector-u48-set! v 1 (apply little-endian->unsigned (reverse ls)) 'little)
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (bytevector-u48-set! v 1 (apply native->unsigned ls) (native-endianness))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 6))])
        (eval `(bytevector-u48-set! ,v 1 ,(apply big-endian->unsigned ls) 'big))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-u48-set! ,v 1 ,(apply little-endian->unsigned (reverse ls)) 'little))
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-u48-set! ,v 1 ,(apply native->unsigned ls) (native-endianness)))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-s56-ref
 ; wrong argument count
  (error? (bytevector-s56-ref))
  (error? (bytevector-s56-ref #vu8(3 252 5 0 0 0 0)))
  (error? (bytevector-s56-ref #vu8(3 252 5 0 0 00 ) 0))
  (error? (begin (bytevector-s56-ref #vu8(3 252 5 0 0 0 0) 0 (native-endianness) 0) #f))

 ; not a bytevector
  (error? (bytevector-s56-ref '#(3 252 5 0 0 0 0) 0 'big))
  (error? (begin (bytevector-s56-ref '#(3 252 5 0 0 0 0) 0 'big) #f))

 ; invalid index
  (error? (bytevector-s56-ref #vu8(3 252 5 0 0 0 0) -1 'big))
  (error? (bytevector-s56-ref #vu8(3 252 5 0 0 0 0) 1 'little))
  (error? (bytevector-s56-ref #vu8(3 252 5 0 0 0 0) 7 (native-endianness)))
  (error? (begin (bytevector-s56-ref #vu8(3 252 5 0 0 0 0) 4.0 'little) #f))

 ; invalid endianness
  (error? (bytevector-s56-ref #vu8(0 1 2 3 4 5 6 7) 0 'bigger))
  (error? (bytevector-s56-ref #vu8(0 1 2 3 4 5 6 7) 0 "little"))
  (error? (begin (bytevector-s56-ref #vu8(0 1 2 3 4 5 6 7) 0 #t) #f))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
      (unless (eqv? (bytevector-s56-ref (apply bytevector ls) 1 (native-endianness))
                    (apply native->signed (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (bytevector-s56-ref (apply bytevector ls) 1 'little)
                    (apply little-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (bytevector-s56-ref (apply bytevector ls) 1 'big)
                    (apply big-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
      (unless (eqv? (eval `(bytevector-s56-ref ,(apply bytevector ls) 1 (native-endianness)))
                    (apply native->signed (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (eval `(bytevector-s56-ref ,(apply bytevector ls) 1 'little))
                    (apply little-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (eval `(bytevector-s56-ref ,(apply bytevector ls) 1 'big))
                    (apply big-endian->signed (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))
)

(mat bytevector-u56-ref
 ; wrong argument count
  (error? (bytevector-u56-ref))
  (error? (bytevector-u56-ref #vu8(3 252 5 0 0 0 0)))
  (error? (bytevector-u56-ref #vu8(3 252 5 0 0 00 ) 0))
  (error? (begin (bytevector-u56-ref #vu8(3 252 5 0 0 0 0) 0 (native-endianness) 0) #f))

 ; not a bytevector
  (error? (bytevector-u56-ref '#(3 252 5 0 0 0 0) 0 'big))
  (error? (begin (bytevector-u56-ref '#(3 252 5 0 0 0 0) 0 'big) #f))

 ; invalid index
  (error? (bytevector-u56-ref #vu8(3 252 5 0 0 0 0) -1 'big))
  (error? (bytevector-u56-ref #vu8(3 252 5 0 0 0 0) 1 'little))
  (error? (bytevector-u56-ref #vu8(3 252 5 0 0 0 0) 7 (native-endianness)))
  (error? (begin (bytevector-u56-ref #vu8(3 252 5 0 0 0 0) 4.0 'little) #f))

 ; invalid endianness
  (error? (bytevector-u56-ref #vu8(0 1 2 3 4 5 6 7) 0 'bigger))
  (error? (bytevector-u56-ref #vu8(0 1 2 3 4 5 6 7) 0 "little"))
  (error? (begin (bytevector-u56-ref #vu8(0 1 2 3 4 5 6 7) 0 #t) #f))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
      (unless (eqv? (bytevector-u56-ref (apply bytevector ls) 1 (native-endianness))
                    (apply native->unsigned (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (bytevector-u56-ref (apply bytevector ls) 1 'little)
                    (apply little-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (bytevector-u56-ref (apply bytevector ls) 1 'big)
                    (apply big-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))

  (do ([i 1000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
      (unless (eqv? (eval `(bytevector-u56-ref ,(apply bytevector ls) 1 (native-endianness)))
                    (apply native->unsigned (cdr ls)))
        (errorf #f "failed for ~s (native)" ls))
      (unless (eqv? (eval `(bytevector-u56-ref ,(apply bytevector ls) 1 'little))
                    (apply little-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (little)" ls))
      (unless (eqv? (eval `(bytevector-u56-ref ,(apply bytevector ls) 1 'big))
                    (apply big-endian->unsigned (cdr ls)))
        (errorf #f "failed for ~s (big)" ls))))
)

(mat bytevector-s56-set!
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-s56-set!))
  (error? (bytevector-s56-set! $v1))
  (error? (bytevector-s56-set! $v1 0))
  (error? (bytevector-s56-set! $v1 0 0))
  (error? (begin (bytevector-s56-set! $v1 0 0 'big 0) #f))

 ; not a bytevector
  (error? (bytevector-s56-set! (make-vector 10) 0 0 (native-endianness)))
  (error? (begin (bytevector-s56-set! (make-vector 10) 0 0 (native-endianness)) #f))

 ; invalid index
  (error? (bytevector-s56-set! $v1 -1 0 'big))
  (error? (bytevector-s56-set! $v1 17 0 (native-endianness)))
  (error? (bytevector-s56-set! $v1 22 0 'little))
  (error? (bytevector-s56-set! $v1 23 0 (native-endianness)))
  (error? (begin (bytevector-s56-set! $v1 'q 0 'big) #f))

 ; invalid value
  (error? (bytevector-s56-set! $v1 0 (expt 2 55) 'big))
  (error? (bytevector-s56-set! $v1 4 (- -1 (expt 2 55)) (native-endianness)))
  (error? (begin (bytevector-s56-set! $v1 8 "hello" 'little) #f))

 ; invalid endianness
  (error? (bytevector-s56-set! $v1 0 0 'huge))
  (error? (bytevector-s56-set! $v1 4 0 "tiny"))
  (error? (begin (bytevector-s56-set! $v1 8 0 $v1) #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 7))])
        (bytevector-s56-set! v 1 (apply big-endian->signed ls) 'big)
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (bytevector-s56-set! v 1 (apply little-endian->signed (reverse ls)) 'little)
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (bytevector-s56-set! v 1 (apply native->signed ls) (native-endianness))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 7))])
        (eval `(bytevector-s56-set! ,v 1 ,(apply big-endian->signed ls) 'big))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-s56-set! ,v 1 ,(apply little-endian->signed (reverse ls)) 'little))
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-s56-set! ,v 1 ,(apply native->signed ls) (native-endianness)))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-u56-set!
  (begin
    (define $v1 (make-bytevector 23 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-u56-set!))
  (error? (bytevector-u56-set! $v1))
  (error? (bytevector-u56-set! $v1 0))
  (error? (bytevector-u56-set! $v1 0 0))
  (error? (begin (bytevector-u56-set! $v1 0 0 'big 0) #f))

 ; not a bytevector
  (error? (bytevector-u56-set! (make-vector 10) 0 0 (native-endianness)))
  (error? (begin (bytevector-u56-set! (make-vector 10) 0 0 (native-endianness)) #f))

 ; invalid index
  (error? (bytevector-u56-set! $v1 -1 0 'big))
  (error? (bytevector-u56-set! $v1 17 0 (native-endianness)))
  (error? (bytevector-u56-set! $v1 22 0 'little))
  (error? (bytevector-u56-set! $v1 23 0 (native-endianness)))
  (error? (begin (bytevector-u56-set! $v1 'q 0 'big) #f))

 ; invalid value
  (error? (bytevector-u56-set! $v1 0 (expt 2 56) 'big))
  (error? (bytevector-u56-set! $v1 4 -1 (native-endianness)))
  (error? (begin (bytevector-u56-set! $v1 8 "hello" 'little) #f))

 ; invalid endianness
  (error? (bytevector-u56-set! $v1 0 0 'huge))
  (error? (bytevector-u56-set! $v1 4 0 "tiny"))
  (error? (begin (bytevector-u56-set! $v1 8 0 $v1) #f))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 7))])
        (bytevector-u56-set! v 1 (apply big-endian->unsigned ls) 'big)
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (bytevector-u56-set! v 1 (apply little-endian->unsigned (reverse ls)) 'little)
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (bytevector-u56-set! v 1 (apply native->unsigned ls) (native-endianness))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 1000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 7))])
        (eval `(bytevector-u56-set! ,v 1 ,(apply big-endian->unsigned ls) 'big))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-u56-set! ,v 1 ,(apply little-endian->unsigned (reverse ls)) 'little))
        (unless (equal? v (apply bytevector #xc7 (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (eval `(bytevector-u56-set! ,v 1 ,(apply native->unsigned ls) (native-endianness)))
        (unless (equal? v (apply bytevector #xc7 ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-s64-native-ref
  (begin
    (define $v1
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #xff #xff #xff #xff #xff #xff #xff #xff
            #x7f #xff #xff #xff #xff #xff #xff #xff
            #xff #xff #xff #xff #xff #xff #xff #x7f
            #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
            #x80 #x00 #x00 #x00 #xff #xff #xff #xff
            #xff #xff #xff #xff #x00 #x00 #x00 #x80
            #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
            #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
            #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
            #xef #xde #xcd #xbc #xab #x9a #x89 #x78
            #xfe #xed #xdc #xcb #xba #xa9 #x98))
    (bytevector? $v1))

 ; wrong argument count
  (error? (bytevector-s64-native-ref))
  (error? (bytevector-s64-native-ref $v1))
  (error? (if (bytevector-s64-native-ref $v1 0 0) #f #t))

 ; not a bytevector
  (error? (bytevector-s64-native-ref '#(3 252 5 0 0 0 0 0 0 0 0) 0))
  (error? (if (bytevector-s64-native-ref '#(3 252 5 0 0 0 0 0 0 0 0) 0) #f #t))

 ; invalid index
  (error? (bytevector-s64-native-ref $v1 -1))
  (error? (bytevector-s64-native-ref $v1 1))
  (error? (bytevector-s64-native-ref $v1 2))
  (error? (bytevector-s64-native-ref $v1 3))
  (error? (bytevector-s64-native-ref $v1 4))
  (error? (bytevector-s64-native-ref $v1 5))
  (error? (bytevector-s64-native-ref $v1 6))
  (error? (bytevector-s64-native-ref $v1 7))
  (error? (bytevector-s64-native-ref $v1 9))
  (error? (bytevector-s64-native-ref $v1 18))
  (error? (bytevector-s64-native-ref $v1 27))
  (error? (bytevector-s64-native-ref $v1 36))
  (error? (bytevector-s64-native-ref $v1 45))
  (error? (bytevector-s64-native-ref $v1 54))
  (error? (bytevector-s64-native-ref $v1 63))
  (error? (bytevector-s64-native-ref $v1 73))
  (error? (bytevector-s64-native-ref $v1 82))
  (error? (bytevector-s64-native-ref $v1 91))
  (error? (bytevector-s64-native-ref $v1 96))
  (error? (bytevector-s64-native-ref $v1 97))
  (error? (bytevector-s64-native-ref $v1 98))
  (error? (bytevector-s64-native-ref $v1 99))
  (error? (bytevector-s64-native-ref $v1 100))
  (error? (bytevector-s64-native-ref $v1 101))
  (error? (bytevector-s64-native-ref $v1 102))
  (error? (bytevector-s64-native-ref $v1 103))
  (error? (if (bytevector-s64-native-ref $v1 4.0) #f #t))

  (eqv? (bytevector-s64-native-ref $v1 0) 0)
  (eqv? (bytevector-s64-native-ref $v1 8) -1)
  (eqv? (bytevector-s64-native-ref $v1 16)
        (native->signed #x7f #xff #xff #xff #xff #xff #xff #xff))
  (eqv? (bytevector-s64-native-ref $v1 24)
        (native->signed #xff #xff #xff #xff #xff #xff #xff #x7f))
  (eqv? (bytevector-s64-native-ref $v1 32)
        (native->signed #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00))
  (eqv? (bytevector-s64-native-ref $v1 40)
        (native->signed #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80))
  (eqv? (bytevector-s64-native-ref $v1 48)
        (native->signed #x80 #x00 #x00 #x00 #xff #xff #xff #xff))
  (eqv? (bytevector-s64-native-ref $v1 56)
        (native->signed #xff #xff #xff #xff #x00 #x00 #x00 #x80))
  (eqv? (bytevector-s64-native-ref $v1 64)
        (native->signed #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89))
  (eqv? (bytevector-s64-native-ref $v1 72)
        (native->signed #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12))
  (eqv? (bytevector-s64-native-ref $v1 80)
        (native->signed #x78 #x89 #x9a #xab #xbc #xcd #xde #xef))
  (eqv? (bytevector-s64-native-ref $v1 88)
        (native->signed #xef #xde #xcd #xbc #xab #x9a #x89 #x78))

  (test-cp0-expansion eqv? `(bytevector-s64-native-ref ,$v1 0) 0)
  (test-cp0-expansion eqv? `(bytevector-s64-native-ref ,$v1 8) -1)
  (test-cp0-expansion eqv? 
    `(bytevector-s64-native-ref ,$v1 16)
    (native->signed #x7f #xff #xff #xff #xff #xff #xff #xff))
  (test-cp0-expansion eqv? 
    `(bytevector-s64-native-ref ,$v1 24)
    (native->signed #xff #xff #xff #xff #xff #xff #xff #x7f))
  (test-cp0-expansion eqv? 
    `(bytevector-s64-native-ref ,$v1 32)
    (native->signed #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00))
  (test-cp0-expansion eqv? 
    `(bytevector-s64-native-ref ,$v1 40)
    (native->signed #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80))
  (test-cp0-expansion eqv? 
    `(bytevector-s64-native-ref ,$v1 48)
    (native->signed #x80 #x00 #x00 #x00 #xff #xff #xff #xff))
  (test-cp0-expansion eqv? 
    `(bytevector-s64-native-ref ,$v1 56)
    (native->signed #xff #xff #xff #xff #x00 #x00 #x00 #x80))
  (test-cp0-expansion eqv? 
    `(bytevector-s64-native-ref ,$v1 64)
    (native->signed #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89))
  (test-cp0-expansion eqv? 
    `(bytevector-s64-native-ref ,$v1 72)
    (native->signed #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12))
  (test-cp0-expansion eqv? 
    `(bytevector-s64-native-ref ,$v1 80)
    (native->signed #x78 #x89 #x9a #xab #xbc #xcd #xde #xef))
  (test-cp0-expansion eqv? 
    `(bytevector-s64-native-ref ,$v1 88)
    (native->signed #xef #xde #xcd #xbc #xab #x9a #x89 #x78))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
      (unless (eqv? (bytevector-s64-native-ref (apply bytevector ls) 0)
                    (apply native->signed ls))
        (errorf #f "failed for ~s" ls))))
)

(mat bytevector-u64-native-ref
  (begin
    (define $v1
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #xff #xff #xff #xff #xff #xff #xff #xff
            #x7f #xff #xff #xff #xff #xff #xff #xff
            #xff #xff #xff #xff #xff #xff #xff #x7f
            #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
            #x80 #x00 #x00 #x00 #xff #xff #xff #xff
            #xff #xff #xff #xff #x00 #x00 #x00 #x80
            #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
            #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
            #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
            #xef #xde #xcd #xbc #xab #x9a #x89 #x78
            #xfe #xed #xdc #xcb #xba #xa9 #x98))
    (bytevector? $v1))

 ; wrong argument count
  (error? (bytevector-u64-native-ref))
  (error? (bytevector-u64-native-ref $v1))
  (error? (if (bytevector-u64-native-ref $v1 0 0) #f #t))

 ; not a bytevector
  (error? (bytevector-u64-native-ref '#(3 252 5 0 0 0 0 0 0 0 0) 0))
  (error? (if (bytevector-u64-native-ref '#(3 252 5 0 0 0 0 0 0 0 0) 0) #f #t))

 ; invalid index
  (error? (bytevector-u64-native-ref $v1 -1))
  (error? (bytevector-u64-native-ref $v1 1))
  (error? (bytevector-u64-native-ref $v1 2))
  (error? (bytevector-u64-native-ref $v1 3))
  (error? (bytevector-u64-native-ref $v1 4))
  (error? (bytevector-u64-native-ref $v1 5))
  (error? (bytevector-u64-native-ref $v1 6))
  (error? (bytevector-u64-native-ref $v1 7))
  (error? (bytevector-u64-native-ref $v1 9))
  (error? (bytevector-u64-native-ref $v1 18))
  (error? (bytevector-u64-native-ref $v1 27))
  (error? (bytevector-u64-native-ref $v1 36))
  (error? (bytevector-u64-native-ref $v1 45))
  (error? (bytevector-u64-native-ref $v1 54))
  (error? (bytevector-u64-native-ref $v1 63))
  (error? (bytevector-u64-native-ref $v1 73))
  (error? (bytevector-u64-native-ref $v1 82))
  (error? (bytevector-u64-native-ref $v1 91))
  (error? (bytevector-u64-native-ref $v1 96))
  (error? (bytevector-u64-native-ref $v1 97))
  (error? (bytevector-u64-native-ref $v1 98))
  (error? (bytevector-u64-native-ref $v1 99))
  (error? (bytevector-u64-native-ref $v1 100))
  (error? (bytevector-u64-native-ref $v1 101))
  (error? (bytevector-u64-native-ref $v1 102))
  (error? (bytevector-u64-native-ref $v1 103))
  (error? (if (bytevector-u64-native-ref $v1 4.0) #f #t))

  (eqv? (bytevector-u64-native-ref $v1 0) 0)
  (eqv? (bytevector-u64-native-ref $v1 8) (- (expt 2 64) 1))
  (eqv? (bytevector-u64-native-ref $v1 16)
        (native->unsigned #x7f #xff #xff #xff #xff #xff #xff #xff))
  (eqv? (bytevector-u64-native-ref $v1 24)
        (native->unsigned #xff #xff #xff #xff #xff #xff #xff #x7f))
  (eqv? (bytevector-u64-native-ref $v1 32)
        (native->unsigned #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00))
  (eqv? (bytevector-u64-native-ref $v1 40)
        (native->unsigned #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80))
  (eqv? (bytevector-u64-native-ref $v1 48)
        (native->unsigned #x80 #x00 #x00 #x00 #xff #xff #xff #xff))
  (eqv? (bytevector-u64-native-ref $v1 56)
        (native->unsigned #xff #xff #xff #xff #x00 #x00 #x00 #x80))
  (eqv? (bytevector-u64-native-ref $v1 64)
        (native->unsigned #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89))
  (eqv? (bytevector-u64-native-ref $v1 72)
        (native->unsigned #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12))
  (eqv? (bytevector-u64-native-ref $v1 80)
        (native->unsigned #x78 #x89 #x9a #xab #xbc #xcd #xde #xef))
  (eqv? (bytevector-u64-native-ref $v1 88)
        (native->unsigned #xef #xde #xcd #xbc #xab #x9a #x89 #x78))

  (test-cp0-expansion eqv? `(bytevector-u64-native-ref ,$v1 0) 0)
  (test-cp0-expansion eqv? 
    `(bytevector-u64-native-ref ,$v1 8) 
    (- (expt 2 64) 1))
  (test-cp0-expansion eqv? 
    `(bytevector-u64-native-ref ,$v1 16)
    (native->unsigned #x7f #xff #xff #xff #xff #xff #xff #xff))
  (test-cp0-expansion eqv? 
    `(bytevector-u64-native-ref ,$v1 24)
    (native->unsigned #xff #xff #xff #xff #xff #xff #xff #x7f))
  (test-cp0-expansion eqv? 
    `(bytevector-u64-native-ref ,$v1 32)
    (native->unsigned #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00))
  (test-cp0-expansion eqv? 
    `(bytevector-u64-native-ref ,$v1 40)
    (native->unsigned #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80))
  (test-cp0-expansion eqv? 
    `(bytevector-u64-native-ref ,$v1 48)
    (native->unsigned #x80 #x00 #x00 #x00 #xff #xff #xff #xff))
  (test-cp0-expansion eqv? 
    `(bytevector-u64-native-ref ,$v1 56)
    (native->unsigned #xff #xff #xff #xff #x00 #x00 #x00 #x80))
  (test-cp0-expansion eqv? 
    `(bytevector-u64-native-ref ,$v1 64)
    (native->unsigned #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89))
  (test-cp0-expansion eqv? 
    `(bytevector-u64-native-ref ,$v1 72)
    (native->unsigned #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12))
  (test-cp0-expansion eqv? 
    `(bytevector-u64-native-ref ,$v1 80)
    (native->unsigned #x78 #x89 #x9a #xab #xbc #xcd #xde #xef))
  (test-cp0-expansion eqv? 
    `(bytevector-u64-native-ref ,$v1 88)
    (native->unsigned #xef #xde #xcd #xbc #xab #x9a #x89 #x78))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
      (unless (eqv? (bytevector-u64-native-ref (apply bytevector ls) 0)
                    (apply native->unsigned ls))
        (errorf #f "failed for ~s" ls))))
)

(mat bytevector-s64-native-set!
  (begin
    (define $v1 (make-bytevector 39 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-s64-native-set!))
  (error? (bytevector-s64-native-set! $v1))
  (error? (bytevector-s64-native-set! $v1 0))
  (error? (if (bytevector-s64-native-set! $v1 0 0 15) #f #t))

 ; not a bytevector
  (error? (bytevector-s64-native-set! (make-vector 10) 0 0))
  (error? (if (bytevector-s64-native-set! (make-vector 10) 0 0) #f #t))

 ; invalid index
  (error? (bytevector-s64-native-set! $v1 -1 0))
  (error? (bytevector-s64-native-set! $v1 1 0))
  (error? (bytevector-s64-native-set! $v1 2 0))
  (error? (bytevector-s64-native-set! $v1 3 0))
  (error? (bytevector-s64-native-set! $v1 4 0))
  (error? (bytevector-s64-native-set! $v1 5 0))
  (error? (bytevector-s64-native-set! $v1 6 0))
  (error? (bytevector-s64-native-set! $v1 7 0))
  (error? (bytevector-s64-native-set! $v1 9 0))
  (error? (bytevector-s64-native-set! $v1 10 0))
  (error? (bytevector-s64-native-set! $v1 11 0))
  (error? (bytevector-s64-native-set! $v1 12 0))
  (error? (bytevector-s64-native-set! $v1 13 0))
  (error? (bytevector-s64-native-set! $v1 14 0))
  (error? (bytevector-s64-native-set! $v1 15 0))
  (error? (bytevector-s64-native-set! $v1 17 0))
  (error? (bytevector-s64-native-set! $v1 20 0))
  (error? (bytevector-s64-native-set! $v1 23 0))
  (error? (bytevector-s64-native-set! $v1 28 0))
  (error? (bytevector-s64-native-set! $v1 32 0))
  (error? (bytevector-s64-native-set! $v1 33 0))
  (error? (bytevector-s64-native-set! $v1 34 0))
  (error? (bytevector-s64-native-set! $v1 35 0))
  (error? (bytevector-s64-native-set! $v1 36 0))
  (error? (bytevector-s64-native-set! $v1 37 0))
  (error? (bytevector-s64-native-set! $v1 38 0))
  (error? (bytevector-s64-native-set! $v1 39 0))
  (error? (if (bytevector-s64-native-set! $v1 'q 0) #f #t))

 ; invalid value
  (error? (bytevector-s64-native-set! $v1 0 #x8000000000000000))
  (error? (bytevector-s64-native-set! $v1 8 #x-8000000000000001))
  (error? (if (bytevector-s64-native-set! $v1 16 "hello") #f #t))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

  (begin
    (bytevector-s64-native-set! $v1 0 0)
    (bytevector-s64-native-set! $v1 8 -1)
    (bytevector-s64-native-set! $v1 16
      (native->signed #x7f #xff #xff #xff #xff #xff #xff #xff))
    (bytevector-s64-native-set! $v1 24
      (native->signed #xff #xff #xff #xff #xff #xff #xff #x7f))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #xff #xff #xff #xff #xff #xff #xff #xff
                        #x7f #xff #xff #xff #xff #xff #xff #xff
                        #xff #xff #xff #xff #xff #xff #xff #x7f
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s64-native-set! $v1 0
      (native->signed #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00))
    (bytevector-s64-native-set! $v1 8
      (native->signed #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80))
    (bytevector-s64-native-set! $v1 16
      (native->signed #x80 #x00 #x00 #x00 #xff #xff #xff #xff))
    (bytevector-s64-native-set! $v1 24
      (native->signed #xff #xff #xff #xff #x00 #x00 #x00 #x80))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
                        #x80 #x00 #x00 #x00 #xff #xff #xff #xff
                        #xff #xff #xff #xff #x00 #x00 #x00 #x80
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s64-native-set! $v1 0
      (native->signed #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89))
    (bytevector-s64-native-set! $v1 8
      (native->signed #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12))
    (bytevector-s64-native-set! $v1 16
      (native->signed #x78 #x89 #x9a #xab #xbc #xcd #xde #xef))
    (bytevector-s64-native-set! $v1 24
      (native->signed #xef #xde #xcd #xbc #xab #x9a #x89 #x78))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
                        #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
                        #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
                        #xef #xde #xcd #xbc #xab #x9a #x89 #x78
                        #xad #xad #xad #xad #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
        (bytevector-s64-native-set! v 0 (apply native->signed ls))
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-u64-native-set!
  (begin
    (define $v1 (make-bytevector 39 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-u64-native-set!))
  (error? (bytevector-u64-native-set! $v1))
  (error? (bytevector-u64-native-set! $v1 0))
  (error? (if (bytevector-u64-native-set! $v1 0 0 15) #f #t))

 ; not a bytevector
  (error? (bytevector-u64-native-set! (make-vector 10) 0 0))
  (error? (if (bytevector-u64-native-set! (make-vector 10) 0 0) #f #t))

 ; invalid index
  (error? (bytevector-u64-native-set! $v1 -1 0))
  (error? (bytevector-u64-native-set! $v1 1 0))
  (error? (bytevector-u64-native-set! $v1 2 0))
  (error? (bytevector-u64-native-set! $v1 3 0))
  (error? (bytevector-u64-native-set! $v1 4 0))
  (error? (bytevector-u64-native-set! $v1 5 0))
  (error? (bytevector-u64-native-set! $v1 6 0))
  (error? (bytevector-u64-native-set! $v1 7 0))
  (error? (bytevector-u64-native-set! $v1 9 0))
  (error? (bytevector-u64-native-set! $v1 10 0))
  (error? (bytevector-u64-native-set! $v1 11 0))
  (error? (bytevector-u64-native-set! $v1 12 0))
  (error? (bytevector-u64-native-set! $v1 13 0))
  (error? (bytevector-u64-native-set! $v1 14 0))
  (error? (bytevector-u64-native-set! $v1 15 0))
  (error? (bytevector-u64-native-set! $v1 17 0))
  (error? (bytevector-u64-native-set! $v1 20 0))
  (error? (bytevector-u64-native-set! $v1 23 0))
  (error? (bytevector-u64-native-set! $v1 28 0))
  (error? (bytevector-u64-native-set! $v1 32 0))
  (error? (bytevector-u64-native-set! $v1 33 0))
  (error? (bytevector-u64-native-set! $v1 34 0))
  (error? (bytevector-u64-native-set! $v1 35 0))
  (error? (bytevector-u64-native-set! $v1 36 0))
  (error? (bytevector-u64-native-set! $v1 37 0))
  (error? (bytevector-u64-native-set! $v1 38 0))
  (error? (bytevector-u64-native-set! $v1 39 0))
  (error? (if (bytevector-u64-native-set! $v1 'q 0) #f #t))

 ; invalid value
  (error? (bytevector-u64-native-set! $v1 0 #x10000000000000000))
  (error? (bytevector-u64-native-set! $v1 8 #x-1))
  (error? (if (bytevector-u64-native-set! $v1 16 "hello") #f #t))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

  (begin
    (bytevector-u64-native-set! $v1 0 0)
    (bytevector-u64-native-set! $v1 8 #xffffffffffffffff)
    (bytevector-u64-native-set! $v1 16
      (native->unsigned #x7f #xff #xff #xff #xff #xff #xff #xff))
    (bytevector-u64-native-set! $v1 24
      (native->unsigned #xff #xff #xff #xff #xff #xff #xff #x7f))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #xff #xff #xff #xff #xff #xff #xff #xff
                        #x7f #xff #xff #xff #xff #xff #xff #xff
                        #xff #xff #xff #xff #xff #xff #xff #x7f
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u64-native-set! $v1 0
      (native->unsigned #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00))
    (bytevector-u64-native-set! $v1 8
      (native->unsigned #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80))
    (bytevector-u64-native-set! $v1 16
      (native->unsigned #x80 #x00 #x00 #x00 #xff #xff #xff #xff))
    (bytevector-u64-native-set! $v1 24
      (native->unsigned #xff #xff #xff #xff #x00 #x00 #x00 #x80))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
                        #x80 #x00 #x00 #x00 #xff #xff #xff #xff
                        #xff #xff #xff #xff #x00 #x00 #x00 #x80
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u64-native-set! $v1 0
      (native->unsigned #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89))
    (bytevector-u64-native-set! $v1 8
      (native->unsigned #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12))
    (bytevector-u64-native-set! $v1 16
      (native->unsigned #x78 #x89 #x9a #xab #xbc #xcd #xde #xef))
    (bytevector-u64-native-set! $v1 24
      (native->unsigned #xef #xde #xcd #xbc #xab #x9a #x89 #x78))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
                        #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
                        #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
                        #xef #xde #xcd #xbc #xab #x9a #x89 #x78
                        #xad #xad #xad #xad #xad #xad #xad))))

  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
        (bytevector-u64-native-set! v 0 (apply native->unsigned ls))
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))
)

(mat bytevector-s64-ref
  (begin
    (define $v1
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #xff #xff #xff #xff #xff #xff #xff #xff
            #x7f #xff #xff #xff #xff #xff #xff #xff
            #xff #xff #xff #xff #xff #xff #xff #x7f
            #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
            #x80 #x00 #x00 #x00 #xff #xff #xff #xff
            #xff #xff #xff #xff #x00 #x00 #x00 #x80
            #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
            #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
            #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
            #xef #xde #xcd #xbc #xab #x9a #x89 #x78
            #xfe #xed #xdc #xcb #xba #xa9 #x98))
    (bytevector? $v1))

 ; wrong argument count
  (error? (bytevector-s64-ref))
  (error? (bytevector-s64-ref $v1))
  (error? (bytevector-s64-ref $v1 0))
  (error? (if (bytevector-s64-ref $v1 0 'big 0) #f #t))

 ; not a bytevector
  (error? (bytevector-s64-ref '#(3 252 5 0 0 0 0 0 0 0 0) 0 'little))
  (error? (if (bytevector-s64-ref '#(3 252 5 0 0 0 0 0 0 0 0) 0 'little) #f #t))

 ; invalid index
  (error? (bytevector-s64-ref $v1 -1 'big))
  (error? (bytevector-s64-ref $v1 96 'little))
  (error? (bytevector-s64-ref $v1 97 'big))
  (error? (bytevector-s64-ref $v1 98 'little))
  (error? (bytevector-s64-ref $v1 99 'big))
  (error? (bytevector-s64-ref $v1 100 'little))
  (error? (bytevector-s64-ref $v1 101 'big))
  (error? (bytevector-s64-ref $v1 102 'little))
  (error? (bytevector-s64-ref $v1 103 'big))
  (error? (if (bytevector-s64-ref $v1 4.0 (native-endianness)) #f #t))

 ; invalid endianness
  (error? (bytevector-s64-ref $v1 0 ''bonkers))
  (error? (bytevector-s64-ref $v1 0 'get-real))
  (error? (if (bytevector-s64-ref $v1 0 1e23) #f #t))

 ; (not bothering with native endianness, since it's either big or little)

 ; aligned accesses, endianness little
  (eqv? (bytevector-s64-ref $v1 0 'little) 0)
  (eqv? (bytevector-s64-ref $v1 8 'little) -1)
  (eqv? (bytevector-s64-ref $v1 16 'little)
        (little-endian->signed #x7f #xff #xff #xff #xff #xff #xff #xff))
  (eqv? (bytevector-s64-ref $v1 24 'little)
        (little-endian->signed #xff #xff #xff #xff #xff #xff #xff #x7f))
  (eqv? (bytevector-s64-ref $v1 32 'little)
        (little-endian->signed #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00))
  (eqv? (bytevector-s64-ref $v1 40 'little)
        (little-endian->signed #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80))
  (eqv? (bytevector-s64-ref $v1 48 'little)
        (little-endian->signed #x80 #x00 #x00 #x00 #xff #xff #xff #xff))
  (eqv? (bytevector-s64-ref $v1 56 'little)
        (little-endian->signed #xff #xff #xff #xff #x00 #x00 #x00 #x80))
  (eqv? (bytevector-s64-ref $v1 64 'little)
        (little-endian->signed #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89))
  (eqv? (bytevector-s64-ref $v1 72 'little)
        (little-endian->signed #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12))
  (eqv? (bytevector-s64-ref $v1 80 'little)
        (little-endian->signed #x78 #x89 #x9a #xab #xbc #xcd #xde #xef))
  (eqv? (bytevector-s64-ref $v1 88 'little)
        (little-endian->signed #xef #xde #xcd #xbc #xab #x9a #x89 #x78))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
      (unless (eqv? (bytevector-s64-ref (apply bytevector ls) 0 'little)
                    (apply little-endian->signed ls))
        (errorf #f "failed for ~s" ls))))

 ; aligned accesses, endianness big
  (begin
    (define $v1
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #xff #xff #xff #xff #xff #xff #xff #xff
            #x7f #xff #xff #xff #xff #xff #xff #xff
            #xff #xff #xff #xff #xff #xff #xff #x7f
            #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
            #x80 #x00 #x00 #x00 #xff #xff #xff #xff
            #xff #xff #xff #xff #x00 #x00 #x00 #x80
            #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
            #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
            #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
            #xef #xde #xcd #xbc #xab #x9a #x89 #x78
            #xfe #xed #xdc #xcb #xba #xa9 #x98))
    (bytevector? $v1))

  (eqv? (bytevector-s64-ref $v1 0 'big) 0)
  (eqv? (bytevector-s64-ref $v1 8 'big) -1)
  (eqv? (bytevector-s64-ref $v1 16 'big)
        (big-endian->signed #x7f #xff #xff #xff #xff #xff #xff #xff))
  (eqv? (bytevector-s64-ref $v1 24 'big)
        (big-endian->signed #xff #xff #xff #xff #xff #xff #xff #x7f))
  (eqv? (bytevector-s64-ref $v1 32 'big)
        (big-endian->signed #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00))
  (eqv? (bytevector-s64-ref $v1 40 'big)
        (big-endian->signed #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80))
  (eqv? (bytevector-s64-ref $v1 48 'big)
        (big-endian->signed #x80 #x00 #x00 #x00 #xff #xff #xff #xff))
  (eqv? (bytevector-s64-ref $v1 56 'big)
        (big-endian->signed #xff #xff #xff #xff #x00 #x00 #x00 #x80))
  (eqv? (bytevector-s64-ref $v1 64 'big)
        (big-endian->signed #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89))
  (eqv? (bytevector-s64-ref $v1 72 'big)
        (big-endian->signed #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12))
  (eqv? (bytevector-s64-ref $v1 80 'big)
        (big-endian->signed #x78 #x89 #x9a #xab #xbc #xcd #xde #xef))
  (eqv? (bytevector-s64-ref $v1 88 'big)
        (big-endian->signed #xef #xde #xcd #xbc #xab #x9a #x89 #x78))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
      (unless (eqv? (bytevector-s64-ref (apply bytevector ls) 0 'big)
                    (apply big-endian->signed ls))
        (errorf #f "failed for ~s" ls))))

 ; unaligned accesses, endianness mixed
  (begin
    (define $v1
      '#vu8(#xc7
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00     ; 1
            #xc7
            #xff #xff #xff #xff #xff #xff #xff #xff     ; 10
            #xc7
            #x7f #xff #xff #xff #xff #xff #xff #xff     ; 19
            #xc7
            #xff #xff #xff #xff #xff #xff #xff #x7f     ; 28
            #xc7
            #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00     ; 37
            #xc7
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80     ; 46
            #xc7
            #x80 #x00 #x00 #x00 #xff #xff #xff #xff     ; 55
            #xc7 #xc7
            #xff #xff #xff #xff #x00 #x00 #x00 #x80     ; 65
            #xc7
            #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89     ; 74
            #xc7
            #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12     ; 83
            #xc7
            #x78 #x89 #x9a #xab #xbc #xcd #xde #xef     ; 92
            #xc7
            #xef #xde #xcd #xbc #xab #x9a #x89 #x78))   ; 101
    (bytevector? $v1))

  (eqv? (bytevector-s64-ref $v1 1 'big) 0)
  (eqv? (bytevector-s64-ref $v1 10 'little) -1)
  (eqv? (bytevector-s64-ref $v1 19 (native-endianness))
        (native->signed #x7f #xff #xff #xff #xff #xff #xff #xff))
  (eqv? (bytevector-s64-ref $v1 28 'big)
        (big-endian->signed #xff #xff #xff #xff #xff #xff #xff #x7f))
  (eqv? (bytevector-s64-ref $v1 37 'little)
        (little-endian->signed #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00))
  (eqv? (bytevector-s64-ref $v1 46 'big)
        (big-endian->signed #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80))
  (eqv? (bytevector-s64-ref $v1 55 'little)
        (little-endian->signed #x80 #x00 #x00 #x00 #xff #xff #xff #xff))
  (eqv? (bytevector-s64-ref $v1 65 'big)
        (big-endian->signed #xff #xff #xff #xff #x00 #x00 #x00 #x80))
  (eqv? (bytevector-s64-ref $v1 74 'little)
        (little-endian->signed #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89))
  (eqv? (bytevector-s64-ref $v1 83 (native-endianness))
        (native->signed #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12))
  (eqv? (bytevector-s64-ref $v1 92 'big)
        (big-endian->signed #x78 #x89 #x9a #xab #xbc #xcd #xde #xef))
  (eqv? (bytevector-s64-ref $v1 101 'little)
        (little-endian->signed #xef #xde #xcd #xbc #xab #x9a #x89 #x78))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
      (unless (eqv? (bytevector-s64-ref (apply bytevector #x3e ls) 1 (native-endianness))
                    (apply native->signed ls))
        (errorf #f "failed for ~s" ls))
      (unless (eqv? (bytevector-s64-ref (apply bytevector #x3e ls) 1 'big)
                    (apply big-endian->signed ls))
        (errorf #f "failed for ~s" ls))
      (unless (eqv? (bytevector-s64-ref (apply bytevector #x3e ls) 1 'little)
                    (apply little-endian->signed ls))
        (errorf #f "failed for ~s" ls))))
)

(mat bytevector-u64-ref
  (begin
    (define $v1
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #xff #xff #xff #xff #xff #xff #xff #xff
            #x7f #xff #xff #xff #xff #xff #xff #xff
            #xff #xff #xff #xff #xff #xff #xff #x7f
            #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
            #x80 #x00 #x00 #x00 #xff #xff #xff #xff
            #xff #xff #xff #xff #x00 #x00 #x00 #x80
            #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
            #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
            #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
            #xef #xde #xcd #xbc #xab #x9a #x89 #x78
            #xfe #xed #xdc #xcb #xba #xa9 #x98))
    (bytevector? $v1))

 ; wrong argument count
  (error? (bytevector-u64-ref))
  (error? (bytevector-u64-ref $v1))
  (error? (bytevector-u64-ref $v1 0))
  (error? (if (bytevector-u64-ref $v1 0 'big 0) #f #t))

 ; not a bytevector
  (error? (bytevector-u64-ref '#(3 252 5 0 0 0 0 0 0 0 0) 0 'little))
  (error? (if (bytevector-u64-ref '#(3 252 5 0 0 0 0 0 0 0 0) 0 'little) #f #t))

 ; invalid index
  (error? (bytevector-u64-ref $v1 -1 'big))
  (error? (bytevector-u64-ref $v1 96 'little))
  (error? (bytevector-u64-ref $v1 97 'big))
  (error? (bytevector-u64-ref $v1 98 'little))
  (error? (bytevector-u64-ref $v1 99 'big))
  (error? (bytevector-u64-ref $v1 100 'little))
  (error? (bytevector-u64-ref $v1 101 'big))
  (error? (bytevector-u64-ref $v1 102 'little))
  (error? (bytevector-u64-ref $v1 103 'big))
  (error? (if (bytevector-u64-ref $v1 4.0 (native-endianness)) #f #t))

 ; invalid endianness
  (error? (bytevector-u64-ref $v1 0 ''bonkers))
  (error? (bytevector-u64-ref $v1 0 'get-real))
  (error? (if (bytevector-u64-ref $v1 0 1e23) #f #t))

 ; (not bothering with native endianness, since it's either big or little)

 ; aligned accesses, endianness little
  (eqv? (bytevector-u64-ref $v1 0 'little) 0)
  (eqv? (bytevector-u64-ref $v1 8 'little) #xffffffffffffffff)
  (eqv? (bytevector-u64-ref $v1 16 'little)
        (little-endian->unsigned #x7f #xff #xff #xff #xff #xff #xff #xff))
  (eqv? (bytevector-u64-ref $v1 24 'little)
        (little-endian->unsigned #xff #xff #xff #xff #xff #xff #xff #x7f))
  (eqv? (bytevector-u64-ref $v1 32 'little)
        (little-endian->unsigned #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00))
  (eqv? (bytevector-u64-ref $v1 40 'little)
        (little-endian->unsigned #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80))
  (eqv? (bytevector-u64-ref $v1 48 'little)
        (little-endian->unsigned #x80 #x00 #x00 #x00 #xff #xff #xff #xff))
  (eqv? (bytevector-u64-ref $v1 56 'little)
        (little-endian->unsigned #xff #xff #xff #xff #x00 #x00 #x00 #x80))
  (eqv? (bytevector-u64-ref $v1 64 'little)
        (little-endian->unsigned #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89))
  (eqv? (bytevector-u64-ref $v1 72 'little)
        (little-endian->unsigned #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12))
  (eqv? (bytevector-u64-ref $v1 80 'little)
        (little-endian->unsigned #x78 #x89 #x9a #xab #xbc #xcd #xde #xef))
  (eqv? (bytevector-u64-ref $v1 88 'little)
        (little-endian->unsigned #xef #xde #xcd #xbc #xab #x9a #x89 #x78))

 ; aligned accesses, endianness big
  (begin
    (define $v1
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #xff #xff #xff #xff #xff #xff #xff #xff
            #x7f #xff #xff #xff #xff #xff #xff #xff
            #xff #xff #xff #xff #xff #xff #xff #x7f
            #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
            #x80 #x00 #x00 #x00 #xff #xff #xff #xff
            #xff #xff #xff #xff #x00 #x00 #x00 #x80
            #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
            #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
            #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
            #xef #xde #xcd #xbc #xab #x9a #x89 #x78
            #xfe #xed #xdc #xcb #xba #xa9 #x98))
    (bytevector? $v1))

  (eqv? (bytevector-u64-ref $v1 0 'big) 0)
  (eqv? (bytevector-u64-ref $v1 8 'big) #xffffffffffffffff)
  (eqv? (bytevector-u64-ref $v1 16 'big)
        (big-endian->unsigned #x7f #xff #xff #xff #xff #xff #xff #xff))
  (eqv? (bytevector-u64-ref $v1 24 'big)
        (big-endian->unsigned #xff #xff #xff #xff #xff #xff #xff #x7f))
  (eqv? (bytevector-u64-ref $v1 32 'big)
        (big-endian->unsigned #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00))
  (eqv? (bytevector-u64-ref $v1 40 'big)
        (big-endian->unsigned #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80))
  (eqv? (bytevector-u64-ref $v1 48 'big)
        (big-endian->unsigned #x80 #x00 #x00 #x00 #xff #xff #xff #xff))
  (eqv? (bytevector-u64-ref $v1 56 'big)
        (big-endian->unsigned #xff #xff #xff #xff #x00 #x00 #x00 #x80))
  (eqv? (bytevector-u64-ref $v1 64 'big)
        (big-endian->unsigned #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89))
  (eqv? (bytevector-u64-ref $v1 72 'big)
        (big-endian->unsigned #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12))
  (eqv? (bytevector-u64-ref $v1 80 'big)
        (big-endian->unsigned #x78 #x89 #x9a #xab #xbc #xcd #xde #xef))
  (eqv? (bytevector-u64-ref $v1 88 'big)
        (big-endian->unsigned #xef #xde #xcd #xbc #xab #x9a #x89 #x78))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
      (unless (eqv? (bytevector-u64-ref (apply bytevector ls) 0 'big)
                    (apply big-endian->unsigned ls))
        (errorf #f "failed for ~s" ls))))

 ; unaligned accesses, endianness mixed
  (begin
    (define $v1
      '#vu8(#xc7
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00     ; 1
            #xc7
            #xff #xff #xff #xff #xff #xff #xff #xff     ; 10
            #xc7
            #x7f #xff #xff #xff #xff #xff #xff #xff     ; 19
            #xc7
            #xff #xff #xff #xff #xff #xff #xff #x7f     ; 28
            #xc7
            #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00     ; 37
            #xc7
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80     ; 46
            #xc7
            #x80 #x00 #x00 #x00 #xff #xff #xff #xff     ; 55
            #xc7 #xc7
            #xff #xff #xff #xff #x00 #x00 #x00 #x80     ; 65
            #xc7
            #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89     ; 74
            #xc7
            #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12     ; 83
            #xc7
            #x78 #x89 #x9a #xab #xbc #xcd #xde #xef     ; 92
            #xc7
            #xef #xde #xcd #xbc #xab #x9a #x89 #x78))   ; 101
    (bytevector? $v1))

  (eqv? (bytevector-u64-ref $v1 1 'big) 0)
  (eqv? (bytevector-u64-ref $v1 10 'little) #xffffffffffffffff)
  (eqv? (bytevector-u64-ref $v1 19 (native-endianness))
        (native->unsigned #x7f #xff #xff #xff #xff #xff #xff #xff))
  (eqv? (bytevector-u64-ref $v1 28 'big)
        (big-endian->unsigned #xff #xff #xff #xff #xff #xff #xff #x7f))
  (eqv? (bytevector-u64-ref $v1 37 'little)
        (little-endian->unsigned #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00))
  (eqv? (bytevector-u64-ref $v1 46 'big)
        (big-endian->unsigned #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80))
  (eqv? (bytevector-u64-ref $v1 55 'little)
        (little-endian->unsigned #x80 #x00 #x00 #x00 #xff #xff #xff #xff))
  (eqv? (bytevector-u64-ref $v1 65 'big)
        (big-endian->unsigned #xff #xff #xff #xff #x00 #x00 #x00 #x80))
  (eqv? (bytevector-u64-ref $v1 74 'little)
        (little-endian->unsigned #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89))
  (eqv? (bytevector-u64-ref $v1 83 (native-endianness))
        (native->unsigned #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12))
  (eqv? (bytevector-u64-ref $v1 92 'big)
        (big-endian->unsigned #x78 #x89 #x9a #xab #xbc #xcd #xde #xef))
  (eqv? (bytevector-u64-ref $v1 101 'little)
        (little-endian->unsigned #xef #xde #xcd #xbc #xab #x9a #x89 #x78))

  (do ([i 10000 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
      (unless (eqv? (bytevector-u64-ref (apply bytevector #x3e ls) 1 (native-endianness))
                    (apply native->unsigned ls))
        (errorf #f "failed for ~s" ls))
      (unless (eqv? (bytevector-u64-ref (apply bytevector #x3e ls) 1 'big)
                    (apply big-endian->unsigned ls))
        (errorf #f "failed for ~s" ls))
      (unless (eqv? (bytevector-u64-ref (apply bytevector #x3e ls) 1 'little)
                    (apply little-endian->unsigned ls))
        (errorf #f "failed for ~s" ls))))
)

(mat bytevector-s64-set!
  (begin
    (define $v1 (make-bytevector 39 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-s64-set!))
  (error? (bytevector-s64-set! $v1))
  (error? (bytevector-s64-set! $v1 0))
  (error? (bytevector-s64-set! $v1 0 0))
  (error? (if (bytevector-s64-set! $v1 0 0 'big 15) #f #t))

 ; not a bytevector
  (error? (bytevector-s64-set! (make-vector 10) 0 0 'big))
  (error? (if (bytevector-s64-set! (make-vector 10) 0 0 'big) #f #t))

 ; invalid index
  (error? (bytevector-s64-set! $v1 -1 0 'big))
  (error? (bytevector-s64-set! $v1 32 0 'little))
  (error? (bytevector-s64-set! $v1 33 0 'big))
  (error? (bytevector-s64-set! $v1 34 0 'little))
  (error? (bytevector-s64-set! $v1 35 0 (native-endianness)))
  (error? (bytevector-s64-set! $v1 36 0 'big))
  (error? (bytevector-s64-set! $v1 37 0 'little))
  (error? (bytevector-s64-set! $v1 38 0 'big))
  (error? (bytevector-s64-set! $v1 39 0 'little))
  (error? (if (bytevector-s64-set! $v1 'q 0 (native-endianness)) #f #t))

 ; invalid value
  (error? (bytevector-s64-set! $v1 0 #x8000000000000000 'little))
  (error? (bytevector-s64-set! $v1 8 #x-8000000000000001 'big))
  (error? (if (bytevector-s64-set! $v1 16 "hello" (native-endianness)) #f #t))

 ; invalid endianness
  (error? (bytevector-s64-set! $v1 0 0 'gorgeous))
  (error? (bytevector-s64-set! $v1 0 0 '#(ravenous)))
  (error? (if (bytevector-s64-set! $v1 0 0 #t) #f #t))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

 ; (not bothering with native endianness, since it's either big or little)

 ; aligned accesses, endianness little
  (begin
    (bytevector-s64-set! $v1 0 0 'little)
    (bytevector-s64-set! $v1 8 -1 'little)
    (bytevector-s64-set! $v1 16
      (little-endian->signed #x7f #xff #xff #xff #xff #xff #xff #xff)
      'little)
    (bytevector-s64-set! $v1 24
      (little-endian->signed #xff #xff #xff #xff #xff #xff #xff #x7f)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #xff #xff #xff #xff #xff #xff #xff #xff
                        #x7f #xff #xff #xff #xff #xff #xff #xff
                        #xff #xff #xff #xff #xff #xff #xff #x7f
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s64-set! $v1 0
      (little-endian->signed #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00)
      'little)
    (bytevector-s64-set! $v1 8
      (little-endian->signed #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80)
      'little)
    (bytevector-s64-set! $v1 16
      (little-endian->signed #x80 #x00 #x00 #x00 #xff #xff #xff #xff)
      'little)
    (bytevector-s64-set! $v1 24
      (little-endian->signed #xff #xff #xff #xff #x00 #x00 #x00 #x80)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
                        #x80 #x00 #x00 #x00 #xff #xff #xff #xff
                        #xff #xff #xff #xff #x00 #x00 #x00 #x80
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s64-set! $v1 0
      (little-endian->signed #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89)
      'little)
    (bytevector-s64-set! $v1 8
      (little-endian->signed #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12)
      'little)
    (bytevector-s64-set! $v1 16
      (little-endian->signed #x78 #x89 #x9a #xab #xbc #xcd #xde #xef)
      'little)
    (bytevector-s64-set! $v1 24
      (little-endian->signed #xef #xde #xcd #xbc #xab #x9a #x89 #x78)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
                        #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
                        #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
                        #xef #xde #xcd #xbc #xab #x9a #x89 #x78
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; aligned accesses, endianness big
  (begin
    (bytevector-s64-set! $v1 0 0 'big)
    (bytevector-s64-set! $v1 8 -1 'big)
    (bytevector-s64-set! $v1 16
      (big-endian->signed #x7f #xff #xff #xff #xff #xff #xff #xff)
      'big)
    (bytevector-s64-set! $v1 24
      (big-endian->signed #xff #xff #xff #xff #xff #xff #xff #x7f)
      'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #xff #xff #xff #xff #xff #xff #xff #xff
                        #x7f #xff #xff #xff #xff #xff #xff #xff
                        #xff #xff #xff #xff #xff #xff #xff #x7f
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s64-set! $v1 0
      (little-endian->signed #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00)
      'little)
    (bytevector-s64-set! $v1 8
      (little-endian->signed #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80)
      'little)
    (bytevector-s64-set! $v1 16
      (little-endian->signed #x80 #x00 #x00 #x00 #xff #xff #xff #xff)
      'little)
    (bytevector-s64-set! $v1 24
      (little-endian->signed #xff #xff #xff #xff #x00 #x00 #x00 #x80)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
                        #x80 #x00 #x00 #x00 #xff #xff #xff #xff
                        #xff #xff #xff #xff #x00 #x00 #x00 #x80
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-s64-set! $v1 0
      (little-endian->signed #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89)
      'little)
    (bytevector-s64-set! $v1 8
      (little-endian->signed #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12)
      'little)
    (bytevector-s64-set! $v1 16
      (little-endian->signed #x78 #x89 #x9a #xab #xbc #xcd #xde #xef)
      'little)
    (bytevector-s64-set! $v1 24
      (little-endian->signed #xef #xde #xcd #xbc #xab #x9a #x89 #x78)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
                        #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
                        #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
                        #xef #xde #xcd #xbc #xab #x9a #x89 #x78
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; aligned accesses, endianness mixed
  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
        (bytevector-s64-set! v 0 (apply native->signed ls) (native-endianness))
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls))
        (bytevector-s64-set! v 0 (apply big-endian->signed (reverse ls)) 'big)
        (unless (equal? v (apply bytevector (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (bytevector-s64-set! v 0 (apply little-endian->signed ls) 'little)
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; unaligned accesses, endianness mixed
  (begin
    (define $v1 (make-bytevector 36 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 1
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 10
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 19
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad)))) ; 28

  (begin
    (bytevector-s64-set! $v1 1 0 'big)
    (bytevector-s64-set! $v1 10 -1 'little)
    (bytevector-s64-set! $v1 19
      (big-endian->signed #x7f #xff #xff #xff #xff #xff #xff #xff)
      'big)
    (bytevector-s64-set! $v1 28
      (little-endian->signed #xff #xff #xff #xff #xff #xff #xff #x7f)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad
                        #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #xad
                        #xff #xff #xff #xff #xff #xff #xff #xff
                        #xad
                        #x7f #xff #xff #xff #xff #xff #xff #xff
                        #xad
                        #xff #xff #xff #xff #xff #xff #xff #x7f))))

  (begin
    (define $v1 (make-bytevector 37 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 2
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 11
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 20
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad)))) ; 29

  (begin
    (bytevector-s64-set! $v1 2
      (little-endian->signed #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00)
      'little)
    (bytevector-s64-set! $v1 11
      (big-endian->signed #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80)
      'big)
    (bytevector-s64-set! $v1 20
      (big-endian->signed #x80 #x00 #x00 #x00 #xff #xff #xff #xff)
      'big)
    (bytevector-s64-set! $v1 29
      (little-endian->signed #xff #xff #xff #xff #x00 #x00 #x00 #x80)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad
                        #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #xad
                        #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
                        #xad
                        #x80 #x00 #x00 #x00 #xff #xff #xff #xff
                        #xad
                        #xff #xff #xff #xff #x00 #x00 #x00 #x80))))

  (begin
    (define $v1 (make-bytevector 38 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 3
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 12
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 21
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad)))) ; 30

  (begin
    (bytevector-s64-set! $v1 3
      (big-endian->signed #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89)
      'big)
    (bytevector-s64-set! $v1 12
      (little-endian->signed #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12)
      'little)
    (bytevector-s64-set! $v1 21
      (little-endian->signed #x78 #x89 #x9a #xab #xbc #xcd #xde #xef)
      'little)
    (bytevector-s64-set! $v1 30
      (big-endian->signed #xef #xde #xcd #xbc #xab #x9a #x89 #x78)
      'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad
                        #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
                        #xad
                        #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
                        #xad
                        #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
                        #xad
                        #xef #xde #xcd #xbc #xab #x9a #x89 #x78))))

  (let ([v (make-bytevector 15)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([idx (fx+ (modulo i 7) 1)])
        (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
          (bytevector-fill! v #xc7)
          (bytevector-s64-set! v idx (apply native->signed ls) (native-endianness))
          (unless (equal? v
                    (apply bytevector
                      (append
                        (make-list idx #xc7)
                        ls
                        (make-list (fx- 7 idx) #xc7))))
            (errorf #f "failed for ~s (native)" ls))
          (bytevector-s64-set! v idx
            (apply big-endian->signed (reverse ls))
            'big)
          (unless (equal? v
                    (apply bytevector
                      (append
                        (make-list idx #xc7)
                        (reverse ls)
                        (make-list (fx- 7 idx) #xc7))))
            (errorf #f "failed for ~s (big)" ls))
          (bytevector-s64-set! v idx
            (apply little-endian->signed ls)
            'little)
          (unless (equal? v
                    (apply bytevector
                      (append
                        (make-list idx #xc7)
                        ls
                        (make-list (fx- 7 idx) #xc7))))
            (errorf #f "failed for ~s (little)" ls))))))
)

(mat bytevector-u64-set!
  (begin
    (define $v1 (make-bytevector 39 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; wrong argument count
  (error? (bytevector-u64-set!))
  (error? (bytevector-u64-set! $v1))
  (error? (bytevector-u64-set! $v1 0))
  (error? (bytevector-u64-set! $v1 0 0))
  (error? (if (bytevector-u64-set! $v1 0 0 'big 15) #f #t))

 ; not a bytevector
  (error? (bytevector-u64-set! (make-vector 10) 0 0 'big))
  (error? (if (bytevector-u64-set! (make-vector 10) 0 0 'big) #f #t))

 ; invalid index
  (error? (bytevector-u64-set! $v1 -1 0 'big))
  (error? (bytevector-u64-set! $v1 32 0 'little))
  (error? (bytevector-u64-set! $v1 33 0 'big))
  (error? (bytevector-u64-set! $v1 34 0 'little))
  (error? (bytevector-u64-set! $v1 35 0 (native-endianness)))
  (error? (bytevector-u64-set! $v1 36 0 'big))
  (error? (bytevector-u64-set! $v1 37 0 'little))
  (error? (bytevector-u64-set! $v1 38 0 'big))
  (error? (bytevector-u64-set! $v1 39 0 'little))
  (error? (if (bytevector-u64-set! $v1 'q 0 (native-endianness)) #f #t))

 ; invalid value
  (error? (bytevector-u64-set! $v1 0 #x10000000000000000 'little))
  (error? (bytevector-u64-set! $v1 8 #x-1 'big))
  (error? (if (bytevector-u64-set! $v1 16 "hello" (native-endianness)) #f #t))

 ; invalid endianness
  (error? (bytevector-u64-set! $v1 0 0 'gorgeous))
  (error? (bytevector-u64-set! $v1 0 0 '#(ravenous)))
  (error? (if (bytevector-u64-set! $v1 0 0 #t) #f #t))

 ; make sure no damage done
  (and
    (bytevector? $v1)
    (equal? $v1 '#vu8(#xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad #xad
                      #xad #xad #xad #xad #xad #xad #xad)))

 ; (not bothering with native endianness, since it's either big or little)

 ; aligned accesses, endianness little
  (begin
    (bytevector-u64-set! $v1 0 0 'little)
    (bytevector-u64-set! $v1 8 #xffffffffffffffff 'little)
    (bytevector-u64-set! $v1 16
      (little-endian->unsigned #x7f #xff #xff #xff #xff #xff #xff #xff)
      'little)
    (bytevector-u64-set! $v1 24
      (little-endian->unsigned #xff #xff #xff #xff #xff #xff #xff #x7f)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #xff #xff #xff #xff #xff #xff #xff #xff
                        #x7f #xff #xff #xff #xff #xff #xff #xff
                        #xff #xff #xff #xff #xff #xff #xff #x7f
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u64-set! $v1 0
      (little-endian->unsigned #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00)
      'little)
    (bytevector-u64-set! $v1 8
      (little-endian->unsigned #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80)
      'little)
    (bytevector-u64-set! $v1 16
      (little-endian->unsigned #x80 #x00 #x00 #x00 #xff #xff #xff #xff)
      'little)
    (bytevector-u64-set! $v1 24
      (little-endian->unsigned #xff #xff #xff #xff #x00 #x00 #x00 #x80)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
                        #x80 #x00 #x00 #x00 #xff #xff #xff #xff
                        #xff #xff #xff #xff #x00 #x00 #x00 #x80
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u64-set! $v1 0
      (little-endian->unsigned #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89)
      'little)
    (bytevector-u64-set! $v1 8
      (little-endian->unsigned #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12)
      'little)
    (bytevector-u64-set! $v1 16
      (little-endian->unsigned #x78 #x89 #x9a #xab #xbc #xcd #xde #xef)
      'little)
    (bytevector-u64-set! $v1 24
      (little-endian->unsigned #xef #xde #xcd #xbc #xab #x9a #x89 #x78)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
                        #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
                        #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
                        #xef #xde #xcd #xbc #xab #x9a #x89 #x78
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; aligned accesses, endianness big
  (begin
    (bytevector-u64-set! $v1 0 0 'big)
    (bytevector-u64-set! $v1 8 #xffffffffffffffff 'big)
    (bytevector-u64-set! $v1 16
      (big-endian->unsigned #x7f #xff #xff #xff #xff #xff #xff #xff)
      'big)
    (bytevector-u64-set! $v1 24
      (big-endian->unsigned #xff #xff #xff #xff #xff #xff #xff #x7f)
      'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #xff #xff #xff #xff #xff #xff #xff #xff
                        #x7f #xff #xff #xff #xff #xff #xff #xff
                        #xff #xff #xff #xff #xff #xff #xff #x7f
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u64-set! $v1 0
      (little-endian->unsigned #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00)
      'little)
    (bytevector-u64-set! $v1 8
      (little-endian->unsigned #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80)
      'little)
    (bytevector-u64-set! $v1 16
      (little-endian->unsigned #x80 #x00 #x00 #x00 #xff #xff #xff #xff)
      'little)
    (bytevector-u64-set! $v1 24
      (little-endian->unsigned #xff #xff #xff #xff #x00 #x00 #x00 #x80)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
                        #x80 #x00 #x00 #x00 #xff #xff #xff #xff
                        #xff #xff #xff #xff #x00 #x00 #x00 #x80
                        #xad #xad #xad #xad #xad #xad #xad))))

  (begin
    (bytevector-u64-set! $v1 0
      (little-endian->unsigned #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89)
      'little)
    (bytevector-u64-set! $v1 8
      (little-endian->unsigned #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12)
      'little)
    (bytevector-u64-set! $v1 16
      (little-endian->unsigned #x78 #x89 #x9a #xab #xbc #xcd #xde #xef)
      'little)
    (bytevector-u64-set! $v1 24
      (little-endian->unsigned #xef #xde #xcd #xbc #xab #x9a #x89 #x78)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
                        #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
                        #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
                        #xef #xde #xcd #xbc #xab #x9a #x89 #x78
                        #xad #xad #xad #xad #xad #xad #xad))))

 ; aligned accesses, endianness mixed
  (let ([v (bytevector #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7 #xc7)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
        (bytevector-u64-set! v 0 (apply native->unsigned ls) (native-endianness))
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls))
        (bytevector-u64-set! v 0 (apply big-endian->unsigned (reverse ls)) 'big)
        (unless (equal? v (apply bytevector (reverse ls)))
          (errorf #f "failed for ~s" ls))
        (bytevector-u64-set! v 0 (apply little-endian->unsigned ls) 'little)
        (unless (equal? v (apply bytevector ls))
          (errorf #f "failed for ~s" ls)))))

 ; unaligned accesses, endianness mixed
  (begin
    (define $v1 (make-bytevector 36 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 1
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 10
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 19
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad)))) ; 28

  (begin
    (bytevector-u64-set! $v1 1 0 'big)
    (bytevector-u64-set! $v1 10 #xffffffffffffffff 'little)
    (bytevector-u64-set! $v1 19
      (big-endian->unsigned #x7f #xff #xff #xff #xff #xff #xff #xff)
      'big)
    (bytevector-u64-set! $v1 28
      (little-endian->unsigned #xff #xff #xff #xff #xff #xff #xff #x7f)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad
                        #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #xad
                        #xff #xff #xff #xff #xff #xff #xff #xff
                        #xad
                        #x7f #xff #xff #xff #xff #xff #xff #xff
                        #xad
                        #xff #xff #xff #xff #xff #xff #xff #x7f))))

  (begin
    (define $v1 (make-bytevector 37 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 2
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 11
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 20
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad)))) ; 29

  (begin
    (bytevector-u64-set! $v1 2
      (little-endian->unsigned #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00)
      'little)
    (bytevector-u64-set! $v1 11
      (big-endian->unsigned #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80)
      'big)
    (bytevector-u64-set! $v1 20
      (big-endian->unsigned #x80 #x00 #x00 #x00 #xff #xff #xff #xff)
      'big)
    (bytevector-u64-set! $v1 29
      (little-endian->unsigned #xff #xff #xff #xff #x00 #x00 #x00 #x80)
      'little)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad
                        #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
                        #xad
                        #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
                        #xad
                        #x80 #x00 #x00 #x00 #xff #xff #xff #xff
                        #xad
                        #xff #xff #xff #xff #x00 #x00 #x00 #x80))))

  (begin
    (define $v1 (make-bytevector 38 #xad))
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 3
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 12
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad     ; 21
                        #xad
                        #xad #xad #xad #xad #xad #xad #xad #xad)))) ; 30

  (begin
    (bytevector-u64-set! $v1 3
      (big-endian->unsigned #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89)
      'big)
    (bytevector-u64-set! $v1 12
      (little-endian->unsigned #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12)
      'little)
    (bytevector-u64-set! $v1 21
      (little-endian->unsigned #x78 #x89 #x9a #xab #xbc #xcd #xde #xef)
      'little)
    (bytevector-u64-set! $v1 30
      (big-endian->unsigned #xef #xde #xcd #xbc #xab #x9a #x89 #x78)
      'big)
    (and
      (bytevector? $v1)
      (equal? $v1 '#vu8(#xad #xad #xad
                        #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
                        #xad
                        #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
                        #xad
                        #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
                        #xad
                        #xef #xde #xcd #xbc #xab #x9a #x89 #x78))))

  (let ([v (make-bytevector 15)])
    (do ([i 10000 (fx- i 1)])
        ((fx= i 0) #t)
      (let ([idx (fx+ (modulo i 7) 1)])
        (let ([ls (map (lambda (x) (random (expt 2 8))) (make-list 8))])
          (bytevector-fill! v #xc7)
          (bytevector-u64-set! v idx (apply native->unsigned ls) (native-endianness))
          (unless (equal? v
                    (apply bytevector
                      (append
                        (make-list idx #xc7)
                        ls
                        (make-list (fx- 7 idx) #xc7))))
            (errorf #f "failed for ~s (native)" ls))
          (bytevector-u64-set! v idx
            (apply big-endian->unsigned (reverse ls))
            'big)
          (unless (equal? v
                    (apply bytevector
                      (append
                        (make-list idx #xc7)
                        (reverse ls)
                        (make-list (fx- 7 idx) #xc7))))
            (errorf #f "failed for ~s (big)" ls))
          (bytevector-u64-set! v idx
            (apply little-endian->unsigned ls)
            'little)
          (unless (equal? v
                    (apply bytevector
                      (append
                        (make-list idx #xc7)
                        ls
                        (make-list (fx- 7 idx) #xc7))))
            (errorf #f "failed for ~s (little)" ls))))))
)

(mat bytevector-ieee-single-native-ref
  (begin
    (define $v1
      (case (native-endianness)
        [(little)
         '#vu8(#x00 #x00 #x00 #x00   ; 0.0
               #x00 #x00 #x00 #x00   ; 0.0   ; extra for consistent mat errors between big- and little-endian machines
               #x00 #x00 #x80 #x3f   ; 1.0
               #x00 #x00 #x80 #xbf   ; -1.0
               #x00 #x00 #xc0 #x3f   ; 1.5
               #x00 #x00 #xc0 #xbf   ; -1.5
               #xad #xe6 #xd5 #x65   ; #b1.10101011110011010101101e1001100
               #x00 #x00 #x80 #x7f   ; +inf.0
               #x00 #x00 #x80 #xff   ; -inf.0
               #x01 #x02 #x03)]
        [(big)
         '#vu8(#x00 #x00 #x00 #x00   ; 0.0
               #x00 #x00 #x00 #x00   ; 0.0   ; extra for consistent mat errors between big- and little-endian machines
               #x3f #x80 #x00 #x00   ; 1.0
               #xbf #x80 #x00 #x00   ; -1.0
               #x3f #xc0 #x00 #x00   ; 1.5
               #xbf #xc0 #x00 #x00   ; -1.5
               #x65 #xd5 #xe6 #xad   ; #b1.10101011110011010101101e1001100
               #x7f #x80 #x00 #x00   ; +inf.0
               #xff #x80 #x00 #x00   ; -inf.0
               #x01 #x02 #x03)]
        [else (errorf #f "mat doesn't handled endianness ~s" (native-endianness))]))
    (bytevector? $v1))

 ; wrong argument count
  (error? (bytevector-ieee-single-native-ref))
  (error? (bytevector-ieee-single-native-ref $v1))
  (error? (if (bytevector-ieee-single-native-ref $v1 0 0) #f #t))

 ; not a bytevector
  (error? (bytevector-ieee-single-native-ref '#(3 252 5 0 0 0 0) 0))
  (error? (if (bytevector-ieee-single-native-ref '#(3 252 5 0 0 0 0) 0) #f #t))

 ; invalid index
  (error? (bytevector-ieee-single-native-ref $v1 -1))
  (error? (bytevector-ieee-single-native-ref $v1 1))
  (error? (bytevector-ieee-single-native-ref $v1 2))
  (error? (bytevector-ieee-single-native-ref $v1 3))
  (error? (bytevector-ieee-single-native-ref $v1 5))
  (error? (bytevector-ieee-single-native-ref $v1 6))
  (error? (bytevector-ieee-single-native-ref $v1 7))
  (error? (bytevector-ieee-single-native-ref $v1 9))
  (error? (bytevector-ieee-single-native-ref $v1 10))
  (error? (bytevector-ieee-single-native-ref $v1 11))
  (error? (bytevector-ieee-single-native-ref $v1 13))
  (error? (bytevector-ieee-single-native-ref $v1 14))
  (error? (bytevector-ieee-single-native-ref $v1 15))
  (error? (bytevector-ieee-single-native-ref $v1 17))
  (error? (bytevector-ieee-single-native-ref $v1 18))
  (error? (bytevector-ieee-single-native-ref $v1 19))
  (error? (bytevector-ieee-single-native-ref $v1 21))
  (error? (bytevector-ieee-single-native-ref $v1 22))
  (error? (bytevector-ieee-single-native-ref $v1 23))
  (error? (bytevector-ieee-single-native-ref $v1 25))
  (error? (bytevector-ieee-single-native-ref $v1 26))
  (error? (bytevector-ieee-single-native-ref $v1 27))
  (error? (bytevector-ieee-single-native-ref $v1 29))
  (error? (bytevector-ieee-single-native-ref $v1 30))
  (error? (bytevector-ieee-single-native-ref $v1 31))
  (error? (bytevector-ieee-single-native-ref $v1 33))
  (error? (bytevector-ieee-single-native-ref $v1 34))
  (error? (bytevector-ieee-single-native-ref $v1 35))
  (error? (bytevector-ieee-single-native-ref $v1 36))
  (error? (bytevector-ieee-single-native-ref $v1 37))
  (error? (bytevector-ieee-single-native-ref $v1 38))
  (error? (bytevector-ieee-single-native-ref $v1 39))
  (error? (if (bytevector-ieee-single-native-ref $v1 4.0) #f #t))

  (eqv? (bytevector-ieee-single-native-ref $v1 0) 0.0)
  (eqv? (bytevector-ieee-single-native-ref $v1 4) 0.0)
  (eqv? (bytevector-ieee-single-native-ref $v1 8) 1.0)
  (eqv? (bytevector-ieee-single-native-ref $v1 12) -1.0)
  (eqv? (bytevector-ieee-single-native-ref $v1 16) 1.5)
  (eqv? (bytevector-ieee-single-native-ref $v1 20) -1.5)
  (eqv? (bytevector-ieee-single-native-ref $v1 24) #b1.10101011110011010101101e1001100)
  (eqv? (bytevector-ieee-single-native-ref $v1 28) +inf.0)
  (eqv? (bytevector-ieee-single-native-ref $v1 32) -inf.0)
)

(mat bytevector-ieee-double-native-ref
  (begin
    (define $v1
      (case (native-endianness)
        [(little)
         '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00   ; 0.0
               #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #x3f   ; 1.0
               #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #xbf   ; -1.0
               #x00 #x00 #x00 #x00 #x00 #x00 #xf8 #x3f   ; 1.5
               #x00 #x00 #x00 #x00 #x00 #x00 #xf8 #xbf   ; -1.5
               #xef #xcd #xab #x89 #x67 #x45 #xa3 #x9c   ; #b-1.0011010001010110011110001001101010111100110111101111e-1000110101
               #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #x7f   ; +inf.0
               #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #xff   ; -inf.0
               #x01 #x02 #x03 #x04 #x05 #x06 #x07)]
        [(big)
         '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00   ; 0.0
               #x3f #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; 1.0
               #xbf #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; -1.0
               #x3f #xf8 #x00 #x00 #x00 #x00 #x00 #x00   ; 1.5
               #xbf #xf8 #x00 #x00 #x00 #x00 #x00 #x00   ; -1.5
               #x9c #xa3 #x45 #x67 #x89 #xab #xcd #xef   ; #b-1.0011010001010110011110001001101010111100110111101111e-1000110101
               #x7f #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; +inf.0
               #xff #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; -inf.0
               #x01 #x02 #x03 #x04 #x05 #x06 #x07)]
        [else (errorf #f "mat doesn't handled endianness ~s" (native-endianness))]))
    (bytevector? $v1))

 ; wrong argument count
  (error? (bytevector-ieee-double-native-ref))
  (error? (bytevector-ieee-double-native-ref $v1))
  (error? (if (bytevector-ieee-double-native-ref $v1 0 0) #f #t))

 ; not a bytevector
  (error? (bytevector-ieee-double-native-ref '#(3 252 5 0 0 0 0) 0))
  (error? (if (bytevector-ieee-double-native-ref '#(3 252 5 0 0 0 0) 0) #f #t))

 ; invalid index
  (error? (bytevector-ieee-double-native-ref $v1 -1))
  (error? (bytevector-ieee-double-native-ref $v1 1))
  (error? (bytevector-ieee-double-native-ref $v1 2))
  (error? (bytevector-ieee-double-native-ref $v1 3))
  (error? (bytevector-ieee-double-native-ref $v1 4))
  (error? (bytevector-ieee-double-native-ref $v1 5))
  (error? (bytevector-ieee-double-native-ref $v1 6))
  (error? (bytevector-ieee-double-native-ref $v1 7))
  (error? (bytevector-ieee-double-native-ref $v1 9))
  (error? (bytevector-ieee-double-native-ref $v1 10))
  (error? (bytevector-ieee-double-native-ref $v1 11))
  (error? (bytevector-ieee-double-native-ref $v1 12))
  (error? (bytevector-ieee-double-native-ref $v1 13))
  (error? (bytevector-ieee-double-native-ref $v1 14))
  (error? (bytevector-ieee-double-native-ref $v1 15))
  (error? (bytevector-ieee-double-native-ref $v1 17))
  (error? (bytevector-ieee-double-native-ref $v1 18))
  (error? (bytevector-ieee-double-native-ref $v1 19))
  (error? (bytevector-ieee-double-native-ref $v1 20))
  (error? (bytevector-ieee-double-native-ref $v1 21))
  (error? (bytevector-ieee-double-native-ref $v1 22))
  (error? (bytevector-ieee-double-native-ref $v1 23))
  (error? (bytevector-ieee-double-native-ref $v1 25))
  (error? (bytevector-ieee-double-native-ref $v1 26))
  (error? (bytevector-ieee-double-native-ref $v1 27))
  (error? (bytevector-ieee-double-native-ref $v1 28))
  (error? (bytevector-ieee-double-native-ref $v1 29))
  (error? (bytevector-ieee-double-native-ref $v1 30))
  (error? (bytevector-ieee-double-native-ref $v1 31))
  (error? (bytevector-ieee-double-native-ref $v1 33))
  (error? (bytevector-ieee-double-native-ref $v1 42))
  (error? (bytevector-ieee-double-native-ref $v1 51))
  (error? (bytevector-ieee-double-native-ref $v1 60))
  (error? (bytevector-ieee-double-native-ref $v1 69))
  (error? (bytevector-ieee-double-native-ref $v1 70))
  (error? (bytevector-ieee-double-native-ref $v1 71))
  (error? (if (bytevector-ieee-double-native-ref $v1 4.0) #f #t))

  (eqv? (bytevector-ieee-double-native-ref $v1 0) 0.0)
  (eqv? (bytevector-ieee-double-native-ref $v1 8) 1.0)
  (eqv? (bytevector-ieee-double-native-ref $v1 16) -1.0)
  (eqv? (bytevector-ieee-double-native-ref $v1 24) 1.5)
  (eqv? (bytevector-ieee-double-native-ref $v1 32) -1.5)
  (eqv? (bytevector-ieee-double-native-ref $v1 40) #b-1.0011010001010110011110001001101010111100110111101111e-1000110101)
  (eqv? (bytevector-ieee-double-native-ref $v1 48) +inf.0)
  (eqv? (bytevector-ieee-double-native-ref $v1 56) -inf.0)
)

(mat bytevector-ieee-single-native-set!
  (begin
    (define $v1 (make-bytevector 35 #xeb))
    (and (bytevector? $v1)
         (equal? $v1
           '#vu8(#xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb))))

 ; wrong argument count
  (error? (bytevector-ieee-single-native-set!))
  (error? (bytevector-ieee-single-native-set! $v1))
  (error? (bytevector-ieee-single-native-set! $v1 0))
  (error? (if (bytevector-ieee-single-native-set! $v1 0 0.0 0.0) #f #t))

 ; not a bytevector
  (error? (bytevector-ieee-single-native-set! '#(3 252 5 0 0 0 0) 0 0.0))
  (error? (if (bytevector-ieee-single-native-set! '#(3 252 5 0 0 0 0) 0 0.0) #f #t))

 ; invalid index
  (error? (bytevector-ieee-single-native-set! $v1 -1 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 1 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 2 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 3 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 5 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 6 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 7 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 9 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 10 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 11 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 13 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 14 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 15 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 17 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 18 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 19 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 21 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 22 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 23 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 25 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 26 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 27 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 29 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 30 0.0))
  (error? (bytevector-ieee-single-native-set! $v1 31 0.0))
  (error? (if (bytevector-ieee-single-native-set! $v1 4.0 0.0) #f #t))

 ; invalid value
  (error? (bytevector-ieee-single-native-set! $v1 0 1+2i))
  (error? (bytevector-ieee-single-native-set! $v1 0 1.0+3.0i))
  (error? (bytevector-ieee-single-native-set! $v1 0 1.0+0.0i))
  (error? (bytevector-ieee-single-native-set! $v1 0 1.0-0.0i))
  (error? (if (bytevector-ieee-single-native-set! $v1 0 "oops") #f #t))

 ; make sure no damage done
  (and (bytevector? $v1)
       (equal? $v1
         '#vu8(#xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb)))

  (begin
    (bytevector-ieee-single-native-set! $v1 0 0.0)
    (bytevector-ieee-single-native-set! $v1 4 1)
    (bytevector-ieee-single-native-set! $v1 8 -1)
    (bytevector-ieee-single-native-set! $v1 12 3/2)
    (bytevector-ieee-single-native-set! $v1 16 -3/2)
    (bytevector-ieee-single-native-set! $v1 20 #b1.10101011110011010101101e1001100)
    (bytevector-ieee-single-native-set! $v1 24 +inf.0)
    (bytevector-ieee-single-native-set! $v1 28 -inf.0)
    (and (bytevector? $v1)
         (equal? $v1
           (case (native-endianness)
             [(little)
              '#vu8(#x00 #x00 #x00 #x00   ; 0.0
                    #x00 #x00 #x80 #x3f   ; 1.0
                    #x00 #x00 #x80 #xbf   ; -1.0
                    #x00 #x00 #xc0 #x3f   ; 1.5
                    #x00 #x00 #xc0 #xbf   ; -1.5
                    #xad #xe6 #xd5 #x65   ; #b1.10101011110011010101101e1001100
                    #x00 #x00 #x80 #x7f   ; +inf.0
                    #x00 #x00 #x80 #xff   ; -inf.0
                    #xeb #xeb #xeb)]
             [(big)
              '#vu8(#x00 #x00 #x00 #x00   ; 0.0
                    #x3f #x80 #x00 #x00   ; 1.0
                    #xbf #x80 #x00 #x00   ; -1.0
                    #x3f #xc0 #x00 #x00   ; 1.5
                    #xbf #xc0 #x00 #x00   ; -1.5
                    #x65 #xd5 #xe6 #xad   ; #b1.10101011110011010101101e1001100
                    #x7f #x80 #x00 #x00   ; +inf.0
                    #xff #x80 #x00 #x00   ; -inf.0
                    #xeb #xeb #xeb)]
             [else (errorf #f "mat doesn't handled endianness ~s" (native-endianness))]))))
)

(mat bytevector-ieee-double-native-set!
  (begin
    (define $v1 (make-bytevector 71 #xeb))
    (and (bytevector? $v1)
         (equal? $v1
           '#vu8(#xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb))))

 ; wrong argument count
  (error? (bytevector-ieee-double-native-set!))
  (error? (bytevector-ieee-double-native-set! $v1))
  (error? (bytevector-ieee-double-native-set! $v1 0))
  (error? (if (bytevector-ieee-double-native-set! $v1 0 0.0 0.0) #f #t))

 ; not a bytevector
  (error? (bytevector-ieee-double-native-set! '#(3 252 5 0 0 0 0) 0 0.0))
  (error? (if (bytevector-ieee-double-native-set! '#(3 252 5 0 0 0 0) 0 0.0) #f #t))

 ; invalid index
  (error? (bytevector-ieee-double-native-set! $v1 -1 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 1 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 2 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 3 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 4 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 5 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 6 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 7 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 9 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 10 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 11 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 12 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 13 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 14 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 15 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 17 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 18 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 19 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 20 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 21 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 22 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 23 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 25 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 26 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 27 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 28 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 29 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 30 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 31 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 33 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 42 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 51 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 60 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 69 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 70 0.0))
  (error? (bytevector-ieee-double-native-set! $v1 71 0.0))
  (error? (if (bytevector-ieee-double-native-set! $v1 4.0 0.0) #f #t))

 ; invalid value
  (error? (bytevector-ieee-double-native-set! $v1 0 1+2i))
  (error? (bytevector-ieee-double-native-set! $v1 0 1.0-7.3i))
  (error? (bytevector-ieee-double-native-set! $v1 0 -i))
  (error? (bytevector-ieee-double-native-set! $v1 0 1.0+0.0i))
  (error? (bytevector-ieee-double-native-set! $v1 0 1.0-0.0i))
  (error? (if (bytevector-ieee-double-native-set! $v1 0 "oops") #f #t))

 ; make sure no damage done
  (and (bytevector? $v1)
       (equal? $v1
         '#vu8(#xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb)))

  (begin
    (bytevector-ieee-double-native-set! $v1 0 0.0)
    (bytevector-ieee-double-native-set! $v1 8 1)
    (bytevector-ieee-double-native-set! $v1 16 -1)
    (bytevector-ieee-double-native-set! $v1 24 3/2)
    (bytevector-ieee-double-native-set! $v1 32 -3/2)
    (bytevector-ieee-double-native-set! $v1 40 #b-1.0011010001010110011110001001101010111100110111101111e-1000110101)
    (bytevector-ieee-double-native-set! $v1 48 +inf.0)
    (bytevector-ieee-double-native-set! $v1 56 -inf.0)
    (and (bytevector? $v1)
         (equal? $v1
           (case (native-endianness)
             [(little)
              '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00   ; 0.0
                    #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #x3f   ; 1.0
                    #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #xbf   ; -1.0
                    #x00 #x00 #x00 #x00 #x00 #x00 #xf8 #x3f   ; 1.5
                    #x00 #x00 #x00 #x00 #x00 #x00 #xf8 #xbf   ; -1.5
                    #xef #xcd #xab #x89 #x67 #x45 #xa3 #x9c   ; #b-1.0011010001010110011110001001101010111100110111101111e-1000110101
                    #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #x7f   ; +inf.0
                    #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #xff   ; -inf.0
                    #xeb #xeb #xeb #xeb #xeb #xeb #xeb)]
             [(big)
              '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00   ; 0.0
                    #x3f #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; 1.0
                    #xbf #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; -1.0
                    #x3f #xf8 #x00 #x00 #x00 #x00 #x00 #x00   ; 1.5
                    #xbf #xf8 #x00 #x00 #x00 #x00 #x00 #x00   ; -1.5
                    #x9c #xa3 #x45 #x67 #x89 #xab #xcd #xef   ; #b-1.0011010001010110011110001001101010111100110111101111e-1000110101
                    #x7f #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; +inf.0
                    #xff #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; -inf.0
                    #xeb #xeb #xeb #xeb #xeb #xeb #xeb)]
             [else (errorf #f "mat doesn't handled endianness ~s" (native-endianness))]))))
)

(mat bytevector-ieee-single-ref
  (begin
    (define $vlittle
      '#vu8(#x00 #x00 #x00 #x00   ; 0.0   ; 0
            #xc7
            #x00 #x00 #x00 #x00   ; 0.0   ; 5
            #xc7
            #x00 #x00 #x80 #x3f   ; 1.0   ; 10
            #xc7
            #x00 #x00 #x80 #xbf   ; -1.0  ; 15
            #xc7
            #x00 #x00 #xc0 #x3f   ; 1.5   ; 20
            #xc7
            #x00 #x00 #xc0 #xbf   ; -1.5  ; 25
            #xc7
            #xad #xe6 #xd5 #x65   ; #b1.10101011110011010101101e1001100 ; 30
            #xc7
            #x00 #x00 #x80 #x7f   ; +inf.0 ; 35
            #xc7
            #x00 #x00 #x80 #xff   ; -inf.0 ; 40
            #xc7))
    (define $vbig
      '#vu8(#x00 #x00 #x00 #x00   ; 0.0   ; 0
            #xc7
            #x00 #x00 #x00 #x00   ; 0.0   ; 5
            #xc7
            #x3f #x80 #x00 #x00   ; 1.0   ; 10
            #xc7
            #xbf #x80 #x00 #x00   ; -1.0  ; 15
            #xc7
            #x3f #xc0 #x00 #x00   ; 1.5   ; 20
            #xc7
            #xbf #xc0 #x00 #x00   ; -1.5  ; 25
            #xc7
            #x65 #xd5 #xe6 #xad   ; #b1.10101011110011010101101e1001100 ; 30
            #xc7
            #x7f #x80 #x00 #x00   ; +inf.0 ; 35
            #xc7
            #xff #x80 #x00 #x00   ; -inf.0 ; 40
            #xc7))
    (define $vnative
      (case (native-endianness)
        [(little) $vlittle]
        [(big) $vbig]
        [else (errorf #f "mat doesn't handled endianness ~s" (native-endianness))]))
    (andmap bytevector? (list $vlittle $vbig $vnative)))

 ; wrong argument count
  (error? (bytevector-ieee-single-ref))
  (error? (bytevector-ieee-single-ref $vnative))
  (error? (bytevector-ieee-single-ref $vnative 0))
  (error? (if (bytevector-ieee-single-ref $vnative 0 'big 0) #f #t))

 ; not a bytevector
  (error? (bytevector-ieee-single-ref '#(3 252 5 0 0 0 0) 0 'big))
  (error? (if (bytevector-ieee-single-ref '#(3 252 5 0 0 0 0) 0 'big) #f #t))

 ; invalid index
  (error? (bytevector-ieee-single-ref $vnative -1 'big))
  (error? (bytevector-ieee-single-ref $vnative 42 'little))
  (error? (bytevector-ieee-single-ref $vnative 43 'big))
  (error? (bytevector-ieee-single-ref $vnative 44 (native-endianness)))
  (error? (bytevector-ieee-single-ref $vnative 45 'little))
  (error? (if (bytevector-ieee-single-ref $vnative 4.0 'big) #f #t))

 ; invalid endianness
  (error? (bytevector-ieee-single-ref $vnative 0 "nuts"))
  (error? (bytevector-ieee-single-ref $vnative 0 'crazy))
  (error? (if (bytevector-ieee-single-ref $vnative 0 35) #f #t))

  (eqv? (bytevector-ieee-single-ref $vnative 0 (native-endianness)) 0.0)
  (eqv? (bytevector-ieee-single-ref $vnative 5 (native-endianness)) 0.0)
  (eqv? (bytevector-ieee-single-ref $vnative 10 (native-endianness)) 1.0)
  (eqv? (bytevector-ieee-single-ref $vnative 15 (native-endianness)) -1.0)
  (eqv? (bytevector-ieee-single-ref $vnative 20 (native-endianness)) 1.5)
  (eqv? (bytevector-ieee-single-ref $vnative 25 (native-endianness)) -1.5)
  (eqv? (bytevector-ieee-single-ref $vnative 30 (native-endianness)) #b1.10101011110011010101101e1001100)
  (eqv? (bytevector-ieee-single-ref $vnative 35 (native-endianness)) +inf.0)
  (eqv? (bytevector-ieee-single-ref $vnative 40 (native-endianness)) -inf.0)

  (eqv? (bytevector-ieee-single-ref $vlittle 0 'little) 0.0)
  (eqv? (bytevector-ieee-single-ref $vlittle 5 'little) 0.0)
  (eqv? (bytevector-ieee-single-ref $vlittle 10 'little) 1.0)
  (eqv? (bytevector-ieee-single-ref $vlittle 15 'little) -1.0)
  (eqv? (bytevector-ieee-single-ref $vlittle 20 'little) 1.5)
  (eqv? (bytevector-ieee-single-ref $vlittle 25 'little) -1.5)
  (eqv? (bytevector-ieee-single-ref $vlittle 30 'little) #b1.10101011110011010101101e1001100)
  (eqv? (bytevector-ieee-single-ref $vlittle 35 'little) +inf.0)
  (eqv? (bytevector-ieee-single-ref $vlittle 40 'little) -inf.0)

  (eqv? (bytevector-ieee-single-ref $vbig 0 'big) 0.0)
  (eqv? (bytevector-ieee-single-ref $vbig 5 'big) 0.0)
  (eqv? (bytevector-ieee-single-ref $vbig 10 'big) 1.0)
  (eqv? (bytevector-ieee-single-ref $vbig 15 'big) -1.0)
  (eqv? (bytevector-ieee-single-ref $vbig 20 'big) 1.5)
  (eqv? (bytevector-ieee-single-ref $vbig 25 'big) -1.5)
  (eqv? (bytevector-ieee-single-ref $vbig 30 'big) #b1.10101011110011010101101e1001100)
  (eqv? (bytevector-ieee-single-ref $vbig 35 'big) +inf.0)
  (eqv? (bytevector-ieee-single-ref $vbig 40 'big) -inf.0)
)

(mat bytevector-ieee-double-ref
  (begin
    (define $vlittle
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00   ; 0.0    ; 0
            #xed
            #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #x3f   ; 1.0    ; 9
            #xed
            #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #xbf   ; -1.0   ; 18
            #xed
            #x00 #x00 #x00 #x00 #x00 #x00 #xf8 #x3f   ; 1.5    ; 27
            #xed
            #x00 #x00 #x00 #x00 #x00 #x00 #xf8 #xbf   ; -1.5   ; 36
            #xed
            #xef #xcd #xab #x89 #x67 #x45 #xa3 #x9c   ; #b-1.0011010001010110011110001001101010111100110111101111e-1000110101 ; 45
            #xed
            #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #x7f   ; +inf.0 ; 54
            #xed
            #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #xff)) ; -inf.0 ; 63
    (define $vbig
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00   ; 0.0    ; 0
            #xed
            #x3f #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; 1.0    ; 9
            #xed
            #xbf #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; -1.0   ; 18
            #xed
            #x3f #xf8 #x00 #x00 #x00 #x00 #x00 #x00   ; 1.5    ; 27
            #xed
            #xbf #xf8 #x00 #x00 #x00 #x00 #x00 #x00   ; -1.5   ; 36
            #xed
            #x9c #xa3 #x45 #x67 #x89 #xab #xcd #xef   ; #b-1.0011010001010110011110001001101010111100110111101111e-1000110101 ; 45
            #xed
            #x7f #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; +inf.0 ; 54
            #xed
            #xff #xf0 #x00 #x00 #x00 #x00 #x00 #x00)) ; -inf.0 ; 63
    (define $vnative
      (case (native-endianness)
        [(little) $vlittle]
        [(big) $vbig]
        [else (errorf #f "mat doesn't handled endianness ~s" (native-endianness))]))
    (andmap bytevector? (list $vlittle $vbig $vnative)))

 ; wrong argument count
  (error? (bytevector-ieee-double-ref))
  (error? (bytevector-ieee-double-ref $vnative))
  (error? (bytevector-ieee-double-ref $vnative 0))
  (error? (if (bytevector-ieee-double-ref $vnative 0 'big 0) #f #t))

 ; not a bytevector
  (error? (bytevector-ieee-double-ref '#(3 252 5 0 0 0 0) 0 'big))
  (error? (if (bytevector-ieee-double-ref '#(3 252 5 0 0 0 0) 0 'big) #f #t))

 ; invalid index
  (error? (bytevector-ieee-double-ref $vnative -1 'big))
  (error? (bytevector-ieee-double-ref $vnative 64 'big))
  (error? (bytevector-ieee-double-ref $vnative 65 (native-endianness)))
  (error? (bytevector-ieee-double-ref $vnative 66 'little))
  (error? (bytevector-ieee-double-ref $vnative 67 'big))
  (error? (bytevector-ieee-double-ref $vnative 68 (native-endianness)))
  (error? (bytevector-ieee-double-ref $vnative 69 'little))
  (error? (bytevector-ieee-double-ref $vnative 70 'big))
  (error? (bytevector-ieee-double-ref $vnative 71 'little))
  (error? (if (bytevector-ieee-double-ref $vnative 4.0 'big) #f #t))

 ; invalid endianness
  (error? (bytevector-ieee-double-ref $vnative 0 "nuts"))
  (error? (bytevector-ieee-double-ref $vnative 0 'crazy))
  (error? (if (bytevector-ieee-double-ref $vnative 0 35) #f #t))

  (eqv? (bytevector-ieee-double-ref $vnative 0 (native-endianness)) 0.0)
  (eqv? (bytevector-ieee-double-ref $vnative 9 (native-endianness)) 1.0)
  (eqv? (bytevector-ieee-double-ref $vnative 18 (native-endianness)) -1.0)
  (eqv? (bytevector-ieee-double-ref $vnative 27 (native-endianness)) 1.5)
  (eqv? (bytevector-ieee-double-ref $vnative 36 (native-endianness)) -1.5)
  (eqv? (bytevector-ieee-double-ref $vnative 45 (native-endianness)) #b-1.0011010001010110011110001001101010111100110111101111e-1000110101)
  (eqv? (bytevector-ieee-double-ref $vnative 54 (native-endianness)) +inf.0)
  (eqv? (bytevector-ieee-double-ref $vnative 63 (native-endianness)) -inf.0)

  (eqv? (bytevector-ieee-double-ref $vlittle 0 'little) 0.0)
  (eqv? (bytevector-ieee-double-ref $vlittle 9 'little) 1.0)
  (eqv? (bytevector-ieee-double-ref $vlittle 18 'little) -1.0)
  (eqv? (bytevector-ieee-double-ref $vlittle 27 'little) 1.5)
  (eqv? (bytevector-ieee-double-ref $vlittle 36 'little) -1.5)
  (eqv? (bytevector-ieee-double-ref $vlittle 45 'little) #b-1.0011010001010110011110001001101010111100110111101111e-1000110101)
  (eqv? (bytevector-ieee-double-ref $vlittle 54 'little) +inf.0)
  (eqv? (bytevector-ieee-double-ref $vlittle 63 'little) -inf.0)

  (eqv? (bytevector-ieee-double-ref $vbig 0 'big) 0.0)
  (eqv? (bytevector-ieee-double-ref $vbig 9 'big) 1.0)
  (eqv? (bytevector-ieee-double-ref $vbig 18 'big) -1.0)
  (eqv? (bytevector-ieee-double-ref $vbig 27 'big) 1.5)
  (eqv? (bytevector-ieee-double-ref $vbig 36 'big) -1.5)
  (eqv? (bytevector-ieee-double-ref $vbig 45 'big) #b-1.0011010001010110011110001001101010111100110111101111e-1000110101)
  (eqv? (bytevector-ieee-double-ref $vbig 54 'big) +inf.0)
  (eqv? (bytevector-ieee-double-ref $vbig 63 'big) -inf.0)
)

(mat bytevector-ieee-single-set!
  (begin
    (define $v1 (make-bytevector 39 #xeb))
    (and (bytevector? $v1)
         (equal? $v1
           '#vu8(#xeb #xeb #xeb #xeb     ; 0
                 #xeb
                 #xeb #xeb #xeb #xeb     ; 5
                 #xeb
                 #xeb #xeb #xeb #xeb     ; 10
                 #xeb
                 #xeb #xeb #xeb #xeb     ; 15
                 #xeb
                 #xeb #xeb #xeb #xeb     ; 20
                 #xeb
                 #xeb #xeb #xeb #xeb     ; 25
                 #xeb
                 #xeb #xeb #xeb #xeb     ; 30
                 #xeb
                 #xeb #xeb #xeb #xeb)))) ; 35

 ; wrong argument count
  (error? (bytevector-ieee-single-set!))
  (error? (bytevector-ieee-single-set! $v1))
  (error? (bytevector-ieee-single-set! $v1 0))
  (error? (bytevector-ieee-single-set! $v1 0 0.0))
  (error? (if (bytevector-ieee-single-set! $v1 0 0.0 'big 'bigger) #f #t))

 ; not a bytevector
  (error? (bytevector-ieee-single-set! '#(3 252 5 0 0 0 0) 0 0.0 'little))
  (error? (if (bytevector-ieee-single-set! '#(3 252 5 0 0 0 0) 0 0.0 'little) #f #t))

 ; invalid index
  (error? (bytevector-ieee-single-set! $v1 -1 0.0 'little))
  (error? (bytevector-ieee-single-set! $v1 36 0.0 'little))
  (error? (bytevector-ieee-single-set! $v1 37 0.0 'big))
  (error? (bytevector-ieee-single-set! $v1 38 0.0 'big))
  (error? (bytevector-ieee-single-set! $v1 39 0.0 'little))
  (error? (if (bytevector-ieee-single-set! $v1 4.0 0.0 (native-endianness)) #f #t))

 ; invalid value
  (error? (bytevector-ieee-single-set! $v1 0 1+2i 'big))
  (error? (bytevector-ieee-single-set! $v1 0 1.0+3.0i 'little))
  (error? (bytevector-ieee-single-set! $v1 0 1.0+0.0i 'big))
  (error? (bytevector-ieee-single-set! $v1 0 1.0-0.0i (native-endianness)))
  (error? (if (bytevector-ieee-single-set! $v1 0 "oops" 'little) #f #t))

 ; invalid endianness
  (error? (bytevector-ieee-single-set! $v1 0 0.0 "ouch"))
  (error? (bytevector-ieee-single-set! $v1 0 0.0 'what?))
  (error? (if (bytevector-ieee-single-set! $v1 0 0.0 #\newline) #f #t))

 ; make sure no damage done
  (and (bytevector? $v1)
       (equal? $v1
         '#vu8(#xeb #xeb #xeb #xeb
               #xeb
               #xeb #xeb #xeb #xeb
               #xeb
               #xeb #xeb #xeb #xeb
               #xeb
               #xeb #xeb #xeb #xeb
               #xeb
               #xeb #xeb #xeb #xeb
               #xeb
               #xeb #xeb #xeb #xeb
               #xeb
               #xeb #xeb #xeb #xeb
               #xeb
               #xeb #xeb #xeb #xeb)))

  (begin
    (define $vlittle
      '#vu8(#x00 #x00 #x00 #x00   ; 0.0
            #xeb
            #x00 #x00 #x80 #x3f   ; 1.0
            #xeb
            #x00 #x00 #x80 #xbf   ; -1.0
            #xeb
            #x00 #x00 #xc0 #x3f   ; 1.5
            #xeb
            #x00 #x00 #xc0 #xbf   ; -1.5
            #xeb
            #xad #xe6 #xd5 #x65   ; #b1.10101011110011010101101e1001100
            #xeb
            #x00 #x00 #x80 #x7f   ; +inf.0
            #xeb
            #x00 #x00 #x80 #xff)) ; -inf.0

    (define $vbig
      '#vu8(#x00 #x00 #x00 #x00   ; 0.0
            #xeb
            #x3f #x80 #x00 #x00   ; 1.0
            #xeb
            #xbf #x80 #x00 #x00   ; -1.0
            #xeb
            #x3f #xc0 #x00 #x00   ; 1.5
            #xeb
            #xbf #xc0 #x00 #x00   ; -1.5
            #xeb
            #x65 #xd5 #xe6 #xad   ; #b1.10101011110011010101101e1001100
            #xeb
            #x7f #x80 #x00 #x00   ; +inf.0
            #xeb
            #xff #x80 #x00 #x00)) ; -inf.0

    (define $vnative
      (case (native-endianness)
        [(little) $vlittle]
        [(big) $vbig]
        [else (errorf #f "mat doesn't handled endianness ~s" (native-endianness))]))
    (andmap bytevector? (list $vlittle $vbig $vnative)))

  (begin
    (bytevector-ieee-single-set! $v1 0 0.0 (native-endianness))
    (bytevector-ieee-single-set! $v1 5 1 (native-endianness))
    (bytevector-ieee-single-set! $v1 10 -1 (native-endianness))
    (bytevector-ieee-single-set! $v1 15 3/2 (native-endianness))
    (bytevector-ieee-single-set! $v1 20 -3/2 (native-endianness))
    (bytevector-ieee-single-set! $v1 25 #b1.10101011110011010101101e1001100 (native-endianness))
    (bytevector-ieee-single-set! $v1 30 +inf.0 (native-endianness))
    (bytevector-ieee-single-set! $v1 35 -inf.0 (native-endianness))
    (and (bytevector? $v1) (equal? $v1 $vnative)))

  (begin
    (bytevector-ieee-single-set! $v1 0 0.0 'little)
    (bytevector-ieee-single-set! $v1 5 1 'little)
    (bytevector-ieee-single-set! $v1 10 -1 'little)
    (bytevector-ieee-single-set! $v1 15 3/2 'little)
    (bytevector-ieee-single-set! $v1 20 -3/2 'little)
    (bytevector-ieee-single-set! $v1 25 #b1.10101011110011010101101e1001100 'little)
    (bytevector-ieee-single-set! $v1 30 +inf.0 'little)
    (bytevector-ieee-single-set! $v1 35 -inf.0 'little)
    (and (bytevector? $v1) (equal? $v1 $vlittle)))

  (begin
    (bytevector-ieee-single-set! $v1 0 0.0 'big)
    (bytevector-ieee-single-set! $v1 5 1 'big)
    (bytevector-ieee-single-set! $v1 10 -1 'big)
    (bytevector-ieee-single-set! $v1 15 3/2 'big)
    (bytevector-ieee-single-set! $v1 20 -3/2 'big)
    (bytevector-ieee-single-set! $v1 25 #b1.10101011110011010101101e1001100 'big)
    (bytevector-ieee-single-set! $v1 30 +inf.0 'big)
    (bytevector-ieee-single-set! $v1 35 -inf.0 'big)
    (and (bytevector? $v1) (equal? $v1 $vbig)))
)

(mat bytevector-ieee-double-set!
  (begin
    (define $v1 (make-bytevector 71 #xeb))
    (and (bytevector? $v1)
         (equal? $v1
           '#vu8(#xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 0
                 #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 9
                 #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 18
                 #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 27
                 #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 36
                 #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 45
                 #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 54
                 #xeb
                 #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb)))) ; 63

 ; wrong argument count
  (error? (bytevector-ieee-double-set!))
  (error? (bytevector-ieee-double-set! $v1))
  (error? (bytevector-ieee-double-set! $v1 0))
  (error? (bytevector-ieee-double-set! $v1 0 0.0))
  (error? (if (bytevector-ieee-double-set! $v1 0 0.0 'big 'bigger) #f #t))

 ; not a bytevector
  (error? (bytevector-ieee-double-set! '#(3 252 5 0 0 0 0) 0 0.0 'little))
  (error? (if (bytevector-ieee-double-set! '#(3 252 5 0 0 0 0) 0 0.0 'little) #f #t))

 ; invalid index
  (error? (bytevector-ieee-double-set! $v1 -1 0.0 'little))
  (error? (bytevector-ieee-double-set! $v1 64 0.0 'little))
  (error? (bytevector-ieee-double-set! $v1 65 0.0 'little))
  (error? (bytevector-ieee-double-set! $v1 66 0.0 'little))
  (error? (bytevector-ieee-double-set! $v1 67 0.0 'little))
  (error? (bytevector-ieee-double-set! $v1 68 0.0 'little))
  (error? (bytevector-ieee-double-set! $v1 69 0.0 'big))
  (error? (bytevector-ieee-double-set! $v1 70 0.0 'big))
  (error? (bytevector-ieee-double-set! $v1 71 0.0 'little))
  (error? (if (bytevector-ieee-double-set! $v1 4.0 0.0 (native-endianness)) #f #t))

 ; invalid value
  (error? (bytevector-ieee-double-set! $v1 0 1+2i 'big))
  (error? (bytevector-ieee-double-set! $v1 0 1.0+3.0i 'little))
  (error? (bytevector-ieee-double-set! $v1 0 1.0+0.0i 'big))
  (error? (bytevector-ieee-double-set! $v1 0 1.0-0.0i (native-endianness)))
  (error? (if (bytevector-ieee-double-set! $v1 0 "oops" 'little) #f #t))

 ; invalid endianness
  (error? (bytevector-ieee-double-set! $v1 0 0.0 "ouch"))
  (error? (bytevector-ieee-double-set! $v1 0 0.0 'what?))
  (error? (if (bytevector-ieee-double-set! $v1 0 0.0 #\newline) #f #t))

 ; make sure no damage done
  (and (bytevector? $v1)
       (equal? $v1
         '#vu8(#xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 0
               #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 9
               #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 18
               #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 27
               #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 36
               #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 45
               #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb     ; 54
               #xeb
               #xeb #xeb #xeb #xeb #xeb #xeb #xeb #xeb)))  ; 63

  (begin
    (define $vlittle
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00   ; 0.0
            #xeb
            #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #x3f   ; 1.0
            #xeb
            #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #xbf   ; -1.0
            #xeb
            #x00 #x00 #x00 #x00 #x00 #x00 #xf8 #x3f   ; 1.5
            #xeb
            #x00 #x00 #x00 #x00 #x00 #x00 #xf8 #xbf   ; -1.5
            #xeb
            #xef #xcd #xab #x89 #x67 #x45 #xa3 #x9c   ; #b-1.0011010001010110011110001001101010111100110111101111e-1000110101
            #xeb
            #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #x7f   ; +inf.0
            #xeb
            #x00 #x00 #x00 #x00 #x00 #x00 #xf0 #xff)) ; -inf.0

    (define $vbig
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00   ; 0.0
            #xeb
            #x3f #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; 1.0
            #xeb
            #xbf #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; -1.0
            #xeb
            #x3f #xf8 #x00 #x00 #x00 #x00 #x00 #x00   ; 1.5
            #xeb
            #xbf #xf8 #x00 #x00 #x00 #x00 #x00 #x00   ; -1.5
            #xeb
            #x9c #xa3 #x45 #x67 #x89 #xab #xcd #xef   ; #b-1.0011010001010110011110001001101010111100110111101111e-1000110101
            #xeb
            #x7f #xf0 #x00 #x00 #x00 #x00 #x00 #x00   ; +inf.0
            #xeb
            #xff #xf0 #x00 #x00 #x00 #x00 #x00 #x00)) ; -inf.0

    (define $vnative
      (case (native-endianness)
        [(little) $vlittle]
        [(big) $vbig]
        [else (errorf #f "mat doesn't handled endianness ~s" (native-endianness))]))
    (andmap bytevector? (list $vlittle $vbig $vnative)))

  (begin
    (bytevector-ieee-double-set! $v1 0 0.0 (native-endianness))
    (bytevector-ieee-double-set! $v1 9 1 (native-endianness))
    (bytevector-ieee-double-set! $v1 18 -1 (native-endianness))
    (bytevector-ieee-double-set! $v1 27 3/2 (native-endianness))
    (bytevector-ieee-double-set! $v1 36 -3/2 (native-endianness))
    (bytevector-ieee-double-set! $v1 45 #b-1.0011010001010110011110001001101010111100110111101111e-1000110101 (native-endianness))
    (bytevector-ieee-double-set! $v1 54 +inf.0 (native-endianness))
    (bytevector-ieee-double-set! $v1 63 -inf.0 (native-endianness))
    (and (bytevector? $v1) (equal? $v1 $vnative)))

  (begin
    (bytevector-ieee-double-set! $v1 0 0.0 'big)
    (bytevector-ieee-double-set! $v1 9 1 'big)
    (bytevector-ieee-double-set! $v1 18 -1 'big)
    (bytevector-ieee-double-set! $v1 27 3/2 'big)
    (bytevector-ieee-double-set! $v1 36 -3/2 'big)
    (bytevector-ieee-double-set! $v1 45 #b-1.0011010001010110011110001001101010111100110111101111e-1000110101 'big)
    (bytevector-ieee-double-set! $v1 54 +inf.0 'big)
    (bytevector-ieee-double-set! $v1 63 -inf.0 'big)
    (and (bytevector? $v1) (equal? $v1 $vbig)))

  (begin
    (bytevector-ieee-double-set! $v1 0 0.0 'little)
    (bytevector-ieee-double-set! $v1 9 1 'little)
    (bytevector-ieee-double-set! $v1 18 -1 'little)
    (bytevector-ieee-double-set! $v1 27 3/2 'little)
    (bytevector-ieee-double-set! $v1 36 -3/2 'little)
    (bytevector-ieee-double-set! $v1 45 #b-1.0011010001010110011110001001101010111100110111101111e-1000110101 'little)
    (bytevector-ieee-double-set! $v1 54 +inf.0 'little)
    (bytevector-ieee-double-set! $v1 63 -inf.0 'little)
    (and (bytevector? $v1) (equal? $v1 $vlittle)))
)

(mat bytevector-sint-ref
  (begin
    (define $v1
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #xff #xff #xff #xff #xff #xff #xff #xff
            #x7f #xff #xff #xff #xff #xff #xff #xff
            #xff #xff #xff #xff #xff #xff #xff #x7f
            #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
            #x80 #x00 #x00 #x00 #xff #xff #xff #xff
            #xff #xff #xff #xff #x00 #x00 #x00 #x80
            #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
            #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
            #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
            #xef #xde #xcd #xbc #xab #x9a #x89 #x78
            #xfe #xed #xdc #xcb #xba #xa9 #x98))
    (bytevector? $v1))

 ; wrong argument count
  (error? (bytevector-sint-ref))
  (error? (bytevector-sint-ref $v1))
  (error? (bytevector-sint-ref $v1 0))
  (error? (bytevector-sint-ref $v1 0 'big))
  (error? (if (bytevector-sint-ref $v1 0 'big 5 0) #f #t))

 ; not a bytevector
  (error? (bytevector-sint-ref '#(3 252 5 0 0 0 0 0 0 0 0) 0 'little 1))
  (error? (if (bytevector-sint-ref '#(3 252 5 0 0 0 0 0 0 0 0) 0 'little 1) #f #t))

 ; invalid index
  (error? (bytevector-sint-ref $v1 -1 'big 1))
  (error? (bytevector-sint-ref $v1 -1 'big 2))
  (error? (bytevector-sint-ref $v1 -1 'big 3))
  (error? (bytevector-sint-ref $v1 -1 'big 4))
  (error? (bytevector-sint-ref $v1 -1 'big 8))
  (error? (bytevector-sint-ref $v1 -1 'big 9))
  (error? (if (bytevector-sint-ref $v1 -1 'big 10) #f #t))

  (error? (bytevector-sint-ref $v1 96 'little 8))
  (error? (bytevector-sint-ref $v1 96 'little 9))
  (error? (bytevector-sint-ref $v1 97 'big 7))
  (error? (bytevector-sint-ref $v1 98 'little 6))
  (error? (bytevector-sint-ref $v1 99 'big 5))
  (error? (bytevector-sint-ref $v1 100 'big 4))
  (error? (bytevector-sint-ref $v1 100 'big 5))
  (error? (bytevector-sint-ref $v1 100 'big 8))
  (error? (bytevector-sint-ref $v1 101 'big 3))
  (error? (bytevector-sint-ref $v1 101 'little 4))
  (error? (bytevector-sint-ref $v1 102 'little 2))
  (error? (bytevector-sint-ref $v1 102 'big 3))
  (error? (bytevector-sint-ref $v1 103 'big 1))
  (error? (bytevector-sint-ref $v1 103 'big 2))
  (error? (bytevector-sint-ref $v1 103 'big 3))
  (error? (if (bytevector-sint-ref $v1 4.0 (native-endianness) 3) #f #t))

 ; invalid endianness
  (error? (bytevector-sint-ref $v1 0 'bonkers 1))
  (error? (bytevector-sint-ref $v1 0 'bonkers 2))
  (error? (bytevector-sint-ref $v1 0 'bonkers 3))
  (error? (bytevector-sint-ref $v1 0 'bonkers 4))
  (error? (bytevector-sint-ref $v1 0 'bonkers 8))
  (error? (if (bytevector-sint-ref $v1 0 'bonkers 35) #f #t))

 ; invalid size
  (error? (bytevector-sint-ref $v1 0 'little 0))
  (error? (bytevector-sint-ref $v1 1 'big -1))
  (error? (if (bytevector-sint-ref $v1 4 'little 'byte) #f #t))

 ; constant args
  (andmap (lambda (b*) (andmap (lambda (b) (eq? b #t)) b*))
    (let ()
      (define-syntax a
        (lambda (x)
          (define (sublist ls i j)
            (list-head (list-tail ls i) j))
          (let* ([ls '(1 254 3 252 5 250 7 249 8 248
                       9 247 10 246 40 216 80 176 100 156)]
                 [n (length ls)])
            #`(let ()
                (define v '#,(apply bytevector ls))
                (list #,@(let f ([i 0])
                          (if (fx= i n)
                              '()
                              #`((list #,@(let g ([j 1])
                                           (if (fx<= j (fx- n i))
                                               #`((eqv? (bytevector-sint-ref v #,i 'little #,j)
                                                        #,(apply little-endian->signed (sublist ls i j)))
                                                  (eqv? (bytevector-sint-ref v #,i 'big #,j)
                                                        #,(apply big-endian->signed (sublist ls i j)))
                                                  #,@(g (fx+ j 1)))
                                               '())))
                                 #,@(f (fx+ i 1))))))))))
      a))

 ; nonconstant args
  (do ([i 100 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random 256)) (make-list (random 25)))])
      (unless (andmap (lambda (b*) (andmap (lambda (b) (eq? b #t)) b*))
                (let ()
                  (define (sublist ls i j)
                    (list-head (list-tail ls i) j))
                  (let ([n (length ls)])
                    (define v (apply bytevector ls))
                    (let f ([i 0])
                      (if (fx= i n)
                          '()
                          (cons (let g ([j 1])
                                  (if (fx<= j (fx- n i))
                                      (cons*
                                        (eqv? (bytevector-sint-ref v i 'little j)
                                              (apply little-endian->signed (sublist ls i j)))
                                        (eqv? (bytevector-sint-ref v i 'big j)
                                              (apply big-endian->signed (sublist ls i j)))
                                        (g (fx+ j 1)))
                                      '()))
                                (f (fx+ i 1))))))))
        (pretty-print ls)
        (errorf #f "failed for for ~s" ls))))
)

(mat bytevector-uint-ref
  (begin
    (define $v1
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #xff #xff #xff #xff #xff #xff #xff #xff
            #x7f #xff #xff #xff #xff #xff #xff #xff
            #xff #xff #xff #xff #xff #xff #xff #x7f
            #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
            #x80 #x00 #x00 #x00 #xff #xff #xff #xff
            #xff #xff #xff #xff #x00 #x00 #x00 #x80
            #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
            #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
            #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
            #xef #xde #xcd #xbc #xab #x9a #x89 #x78
            #xfe #xed #xdc #xcb #xba #xa9 #x98))
    (bytevector? $v1))

 ; wrong argument count
  (error? (bytevector-uint-ref))
  (error? (bytevector-uint-ref $v1))
  (error? (bytevector-uint-ref $v1 0))
  (error? (bytevector-uint-ref $v1 0 'big))
  (error? (if (bytevector-uint-ref $v1 0 'big 5 0) #f #t))

 ; not a bytevector
  (error? (bytevector-uint-ref '#(3 252 5 0 0 0 0 0 0 0 0) 0 'little 1))
  (error? (if (bytevector-uint-ref '#(3 252 5 0 0 0 0 0 0 0 0) 0 'little 1) #f #t))

 ; invalid index
  (error? (bytevector-uint-ref $v1 -1 'big 1))
  (error? (bytevector-uint-ref $v1 -1 'big 2))
  (error? (bytevector-uint-ref $v1 -1 'big 3))
  (error? (bytevector-uint-ref $v1 -1 'big 4))
  (error? (bytevector-uint-ref $v1 -1 'big 8))
  (error? (bytevector-uint-ref $v1 -1 'big 9))
  (error? (if (bytevector-uint-ref $v1 -1 'big 10) #f #t))

  (error? (bytevector-uint-ref $v1 96 'little 8))
  (error? (bytevector-uint-ref $v1 96 'little 9))
  (error? (bytevector-uint-ref $v1 97 'big 7))
  (error? (bytevector-uint-ref $v1 98 'little 6))
  (error? (bytevector-uint-ref $v1 99 'big 5))
  (error? (bytevector-uint-ref $v1 100 'big 4))
  (error? (bytevector-uint-ref $v1 100 'big 5))
  (error? (bytevector-uint-ref $v1 100 'big 8))
  (error? (bytevector-uint-ref $v1 101 'big 3))
  (error? (bytevector-uint-ref $v1 101 'little 4))
  (error? (bytevector-uint-ref $v1 102 'little 2))
  (error? (bytevector-uint-ref $v1 102 'big 3))
  (error? (bytevector-uint-ref $v1 103 'big 1))
  (error? (bytevector-uint-ref $v1 103 'big 2))
  (error? (bytevector-uint-ref $v1 103 'big 3))
  (error? (if (bytevector-uint-ref $v1 4.0 (native-endianness) 3) #f #t))

 ; invalid endianness
  (error? (bytevector-uint-ref $v1 0 'bonkers 1))
  (error? (bytevector-uint-ref $v1 0 'bonkers 2))
  (error? (bytevector-uint-ref $v1 0 'bonkers 3))
  (error? (bytevector-uint-ref $v1 0 'bonkers 4))
  (error? (bytevector-uint-ref $v1 0 'bonkers 8))
  (error? (if (bytevector-uint-ref $v1 0 'bonkers 35) #f #t))

 ; invalid size
  (error? (bytevector-uint-ref $v1 0 'little 0))
  (error? (bytevector-uint-ref $v1 0 'little (+ (bytevector-length $v1) 1)))
  (error? (bytevector-uint-ref $v1 7 'little (- (bytevector-length $v1) 6)))
  (error? (bytevector-uint-ref #vu8(1 2 3 4) 0 'big 32))
  (error? (bytevector-uint-ref $v1 1 'big -1))
  (error? (if (bytevector-uint-ref $v1 4 'little 'byte) #f #t))

 ; constant args
  (andmap (lambda (b*) (andmap (lambda (b) (eq? b #t)) b*))
    (let ()
      (define-syntax a
        (lambda (x)
          (define (sublist ls i j)
            (list-head (list-tail ls i) j))
          (let* ([ls '(1 254 3 252 5 250 7 249 8 248
                       9 247 10 246 40 216 80 176 100 156)]
                 [n (length ls)])
            #`(let ()
                (define v '#,(apply bytevector ls))
                (list #,@(let f ([i 0])
                          (if (fx= i n)
                              '()
                              #`((list #,@(let g ([j 1])
                                           (if (fx<= j (fx- n i))
                                               #`((eqv? (bytevector-uint-ref v #,i 'little #,j)
                                                        #,(apply little-endian->unsigned (sublist ls i j)))
                                                  (eqv? (bytevector-uint-ref v #,i 'big #,j)
                                                        #,(apply big-endian->unsigned (sublist ls i j)))
                                                  #,@(g (fx+ j 1)))
                                               '())))
                                 #,@(f (fx+ i 1))))))))))
      a))

 ; nonconstant args
  (do ([i 100 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random 256)) (make-list (random 25)))])
      (unless (andmap (lambda (b*) (andmap (lambda (b) (eq? b #t)) b*))
                (let ()
                  (define (sublist ls i j)
                    (list-head (list-tail ls i) j))
                  (let ([n (length ls)])
                    (define v (apply bytevector ls))
                    (let f ([i 0])
                      (if (fx= i n)
                          '()
                          (cons (let g ([j 1])
                                  (if (fx<= j (fx- n i))
                                      (cons*
                                        (eqv? (bytevector-uint-ref v i 'little j)
                                              (apply little-endian->unsigned (sublist ls i j)))
                                        (eqv? (bytevector-uint-ref v i 'big j)
                                              (apply big-endian->unsigned (sublist ls i j)))
                                        (g (fx+ j 1)))
                                      '()))
                                (f (fx+ i 1))))))))
        (pretty-print ls)
        (errorf #f "failed for for ~s" ls))))
)

(mat bytevector-sint-set!
  (begin
    (define $v1
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #xff #xff #xff #xff #xff #xff #xff #xff
            #x7f #xff #xff #xff #xff #xff #xff #xff
            #xff #xff #xff #xff #xff #xff #xff #x7f
            #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
            #x80 #x00 #x00 #x00 #xff #xff #xff #xff
            #xff #xff #xff #xff #x00 #x00 #x00 #x80
            #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
            #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
            #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
            #xef #xde #xcd #xbc #xab #x9a #x89 #x78
            #xfe #xed #xdc #xcb #xba #xa9 #x98))
    (bytevector? $v1))

 ; wrong argument count
  (error? (bytevector-sint-set!))
  (error? (bytevector-sint-set! $v1))
  (error? (bytevector-sint-set! $v1 0))
  (error? (bytevector-sint-set! $v1 0 7))
  (error? (bytevector-sint-set! $v1 0 7 'big))
  (error? (if (bytevector-sint-set! $v1 0 7 'big 5 0) #f #t))

 ; not a bytevector
  (error? (bytevector-sint-set! '#(3 252 5 0 0 0 0 0 0 0 0) 0 7 'little 1))
  (error? (if (bytevector-sint-set! '#(3 252 5 0 0 0 0 0 0 0 0) 0 7 'little 1) #f #t))

 ; invalid index
  (error? (bytevector-sint-set! $v1 -1 7 'big 1))
  (error? (bytevector-sint-set! $v1 -1 7 'big 2))
  (error? (bytevector-sint-set! $v1 -1 7 'big 3))
  (error? (bytevector-sint-set! $v1 -1 7 'big 4))
  (error? (bytevector-sint-set! $v1 -1 7 'big 8))
  (error? (bytevector-sint-set! $v1 -1 7 'big 9))
  (error? (if (bytevector-sint-set! $v1 -1 7 'big 10) #f #t))

  (error? (bytevector-sint-set! $v1 96 7 'little 8))
  (error? (bytevector-sint-set! $v1 96 7 'little 9))
  (error? (bytevector-sint-set! $v1 97 7 'big 7))
  (error? (bytevector-sint-set! $v1 98 7 'little 6))
  (error? (bytevector-sint-set! $v1 99 7 'big 5))
  (error? (bytevector-sint-set! $v1 100 7 'big 4))
  (error? (bytevector-sint-set! $v1 100 7 'big 5))
  (error? (bytevector-sint-set! $v1 100 7 'big 8))
  (error? (bytevector-sint-set! $v1 101 7 'big 3))
  (error? (bytevector-sint-set! $v1 101 7 'little 4))
  (error? (bytevector-sint-set! $v1 102 7 'little 2))
  (error? (bytevector-sint-set! $v1 102 7 'big 3))
  (error? (bytevector-sint-set! $v1 103 7 'big 1))
  (error? (bytevector-sint-set! $v1 103 7 'big 2))
  (error? (bytevector-sint-set! $v1 103 7 'big 3))
  (error? (if (bytevector-sint-set! $v1 4.0 7 (native-endianness) 3) #f #t))

 ; invalid value
  (error? (bytevector-sint-set! $v1 0 #x-81 'big 1))
  (error? (bytevector-sint-set! $v1 0 #x-81 'little 1))
  (error? (bytevector-sint-set! $v1 0 #x80 'big 1))
  (error? (bytevector-sint-set! $v1 0 #x80 'little 1))
  (error? (bytevector-sint-set! $v1 0 #x-8001 'big 2))
  (error? (bytevector-sint-set! $v1 0 #x-8001 'little 2))
  (error? (bytevector-sint-set! $v1 0 #x8000 'big 2))
  (error? (bytevector-sint-set! $v1 0 #x8000 'little 2))
  (error? (bytevector-sint-set! $v1 0 #x-800001 'big 3))
  (error? (bytevector-sint-set! $v1 0 #x-800001 'little 3))
  (error? (bytevector-sint-set! $v1 0 #x800000 'big 3))
  (error? (bytevector-sint-set! $v1 0 #x800000 'little 3))
  (error? (bytevector-sint-set! $v1 0 #x-80000001 'big 4))
  (error? (bytevector-sint-set! $v1 0 #x-80000001 'little 4))
  (error? (bytevector-sint-set! $v1 0 #x80000000 'big 4))
  (error? (bytevector-sint-set! $v1 0 #x80000000 'little 4))
  (error? (bytevector-sint-set! $v1 0 #x-8000000000000001 'big 8))
  (error? (bytevector-sint-set! $v1 0 #x-8000000000000001 'little 8))
  (error? (bytevector-sint-set! $v1 0 #x8000000000000000 'big 8))
  (error? (bytevector-sint-set! $v1 0 #x8000000000000000 'little 8))
  (error? (bytevector-sint-set! $v1 0 #x-80000000000000000001 'big 10))
  (error? (bytevector-sint-set! $v1 0 #x-80000000000000000001 'little 10))
  (error? (bytevector-sint-set! $v1 0 #x80000000000000000000 'big 10))
  (error? (if (bytevector-sint-set! $v1 0 #x80000000000000000000 'little 10) #f #t))

 ; invalid endianness
  (error? (bytevector-sint-set! $v1 0 7 'bonkers 1))
  (error? (bytevector-sint-set! $v1 0 7 'bonkers 2))
  (error? (bytevector-sint-set! $v1 0 7 'bonkers 3))
  (error? (bytevector-sint-set! $v1 0 7 'bonkers 4))
  (error? (bytevector-sint-set! $v1 0 7 'bonkers 8))
  (error? (if (bytevector-sint-set! $v1 0 7 'bonkers 35) #f #t))

 ; invalid size
  (error? (bytevector-sint-set! $v1 0 7 'little 0))
  (error? (bytevector-sint-set! $v1 1 7 'big -1))
  (error? (if (bytevector-sint-set! $v1 4 7 'little 'byte) #f #t))

 ; constant args
  (andmap (lambda (b*) (andmap (lambda (b) (eq? b #t)) b*))
    (let ()
      (define-syntax a
        (lambda (x)
          (define (sublist ls i j)
            (list-head (list-tail ls i) j))
          (define (cmp-vec ls i j)
            (apply bytevector
              `(,@(make-list i #xc7)
                ,@(sublist ls i j)
                ,@(make-list (fx- (length ls) (+ i j)) #xc7))))
          (let* ([ls '(1 254 3) #;'(1 254 3 252 5 250 7 249 8 248
                       9 247 10 246 40 216 80 176 100 156)]
                 [n (length ls)])
            #`(list #,@(let f ([i 0])
                         (if (fx= i n)
                           '()
                           #`((list #,@(let g ([j 1])
                                        (if (fx<= j (fx- n i))
                                            #`((equal?
                                                 (let ([v (make-bytevector #,n #xc7)])
                                                   (bytevector-sint-set! v #,i
                                                     #,(apply little-endian->signed (sublist ls i j))
                                                     'little #,j)
                                                   v)
                                                 '#,(cmp-vec ls i j))
                                               (equal?
                                                 (let ([v (make-bytevector #,n #xc7)])
                                                   (bytevector-sint-set! v #,i
                                                     #,(apply big-endian->signed (sublist ls i j))
                                                     'big #,j)
                                                   v)
                                                 '#,(cmp-vec ls i j))
                                               #,@(g (fx+ j 1)))
                                            '())))
                              #,@(f (fx+ i 1)))))))))
      a))

 ; nonconstant args
  (do ([i 100 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random 256)) (make-list (random 25)))])
      (unless (andmap (lambda (b*) (andmap (lambda (b) (eq? b #t)) b*))
                (let ()
                  (define (sublist ls i j)
                    (list-head (list-tail ls i) j))
                  (define (cmp-vec ls i j)
                    (apply bytevector
                      `(,@(make-list i #xc7)
                        ,@(sublist ls i j)
                        ,@(make-list (fx- (length ls) (+ i j)) #xc7))))
                  (let ([n (length ls)])
                    (let f ([i 0])
                      (if (fx= i n)
                          '()
                           (cons (let g ([j 1])
                                   (if (fx<= j (fx- n i))
                                       (cons*
                                         (equal?
                                           (let ([v (make-bytevector n #xc7)])
                                             (bytevector-sint-set! v i
                                               (apply little-endian->signed (sublist ls i j))
                                               'little j)
                                             v)
                                           (cmp-vec ls i j))
                                         (equal?
                                           (let ([v (make-bytevector n #xc7)])
                                             (bytevector-sint-set! v i
                                               (apply big-endian->signed (sublist ls i j))
                                               'big j)
                                             v)
                                           (cmp-vec ls i j))
                                         (g (fx+ j 1)))
                                       '()))
                                 (f (fx+ i 1))))))))
        (pretty-print ls)
        (errorf #f "failed for for ~s" ls))))
)

(mat bytevector-uint-set!
  (begin
    (define $v1
      '#vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #xff #xff #xff #xff #xff #xff #xff #xff
            #x7f #xff #xff #xff #xff #xff #xff #xff
            #xff #xff #xff #xff #xff #xff #xff #x7f
            #x80 #x00 #x00 #x00 #x00 #x00 #x00 #x00
            #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x80
            #x80 #x00 #x00 #x00 #xff #xff #xff #xff
            #xff #xff #xff #xff #x00 #x00 #x00 #x80
            #x12 #x23 #x34 #x45 #x56 #x67 #x78 #x89
            #x89 #x78 #x67 #x56 #x45 #x34 #x23 #x12
            #x78 #x89 #x9a #xab #xbc #xcd #xde #xef
            #xef #xde #xcd #xbc #xab #x9a #x89 #x78
            #xfe #xed #xdc #xcb #xba #xa9 #x98))
    (bytevector? $v1))

 ; wrong argument count
  (error? (bytevector-uint-set!))
  (error? (bytevector-uint-set! $v1))
  (error? (bytevector-uint-set! $v1 0))
  (error? (bytevector-uint-set! $v1 0 7))
  (error? (bytevector-uint-set! $v1 0 7 'big))
  (error? (if (bytevector-uint-set! $v1 0 7 'big 5 0) #f #t))

 ; not a bytevector
  (error? (bytevector-uint-set! '#(3 252 5 0 0 0 0 0 0 0 0) 0 7 'little 1))
  (error? (if (bytevector-uint-set! '#(3 252 5 0 0 0 0 0 0 0 0) 0 7 'little 1) #f #t))

 ; invalid index
  (error? (bytevector-uint-set! $v1 -1 7 'big 1))
  (error? (bytevector-uint-set! $v1 -1 7 'big 2))
  (error? (bytevector-uint-set! $v1 -1 7 'big 3))
  (error? (bytevector-uint-set! $v1 -1 7 'big 4))
  (error? (bytevector-uint-set! $v1 -1 7 'big 8))
  (error? (bytevector-uint-set! $v1 -1 7 'big 9))
  (error? (if (bytevector-uint-set! $v1 -1 7 'big 10) #f #t))

  (error? (bytevector-uint-set! $v1 96 7 'little 8))
  (error? (bytevector-uint-set! $v1 96 7 'little 9))
  (error? (bytevector-uint-set! $v1 97 7 'big 7))
  (error? (bytevector-uint-set! $v1 98 7 'little 6))
  (error? (bytevector-uint-set! $v1 99 7 'big 5))
  (error? (bytevector-uint-set! $v1 100 7 'big 4))
  (error? (bytevector-uint-set! $v1 100 7 'big 5))
  (error? (bytevector-uint-set! $v1 100 7 'big 8))
  (error? (bytevector-uint-set! $v1 101 7 'big 3))
  (error? (bytevector-uint-set! $v1 101 7 'little 4))
  (error? (bytevector-uint-set! $v1 102 7 'little 2))
  (error? (bytevector-uint-set! $v1 102 7 'big 3))
  (error? (bytevector-uint-set! $v1 103 7 'big 1))
  (error? (bytevector-uint-set! $v1 103 7 'big 2))
  (error? (bytevector-uint-set! $v1 103 7 'big 3))
  (error? (if (bytevector-uint-set! $v1 4.0 7 (native-endianness) 3) #f #t))

 ; invalid value
  (error? (bytevector-uint-set! $v1 0 #x-1 'big 1))
  (error? (bytevector-uint-set! $v1 0 #x-1 'little 1))
  (error? (bytevector-uint-set! $v1 0 #x100 'big 1))
  (error? (bytevector-uint-set! $v1 0 #x100 'little 1))
  (error? (bytevector-uint-set! $v1 0 #x-1 'big 2))
  (error? (bytevector-uint-set! $v1 0 #x-1 'little 2))
  (error? (bytevector-uint-set! $v1 0 #x10000 'big 2))
  (error? (bytevector-uint-set! $v1 0 #x10000 'little 2))
  (error? (bytevector-uint-set! $v1 0 #x-1 'big 3))
  (error? (bytevector-uint-set! $v1 0 #x-1 'little 3))
  (error? (bytevector-uint-set! $v1 0 #x1000000 'big 3))
  (error? (bytevector-uint-set! $v1 0 #x1000000 'little 3))
  (error? (bytevector-uint-set! $v1 0 #x-1 'big 4))
  (error? (bytevector-uint-set! $v1 0 #x-1 'little 4))
  (error? (bytevector-uint-set! $v1 0 #x100000000 'big 4))
  (error? (bytevector-uint-set! $v1 0 #x100000000 'little 4))
  (error? (bytevector-uint-set! $v1 0 #x-1 'big 8))
  (error? (bytevector-uint-set! $v1 0 #x-1 'little 8))
  (error? (bytevector-uint-set! $v1 0 #x10000000000000000 'big 8))
  (error? (bytevector-uint-set! $v1 0 #x10000000000000000 'little 8))
  (error? (bytevector-uint-set! $v1 0 #x-1 'big 10))
  (error? (bytevector-uint-set! $v1 0 #x-1 'little 10))
  (error? (bytevector-uint-set! $v1 0 #x100000000000000000000 'big 10))
  (error? (if (bytevector-uint-set! $v1 0 #x100000000000000000000 'little 10) #f #t))

 ; invalid endianness
  (error? (bytevector-uint-set! $v1 0 7 'bonkers 1))
  (error? (bytevector-uint-set! $v1 0 7 'bonkers 2))
  (error? (bytevector-uint-set! $v1 0 7 'bonkers 3))
  (error? (bytevector-uint-set! $v1 0 7 'bonkers 4))
  (error? (bytevector-uint-set! $v1 0 7 'bonkers 8))
  (error? (if (bytevector-uint-set! $v1 0 7 'bonkers 35) #f #t))

 ; invalid size
  (error? (bytevector-uint-set! $v1 0 7 'little 0))
  (error? (bytevector-uint-set! $v1 1 7 'big -1))
  (error? (if (bytevector-uint-set! $v1 4 7 'little 'byte) #f #t))

 ; constant args
  (andmap (lambda (b*) (andmap (lambda (b) (eq? b #t)) b*))
    (let ()
      (define-syntax a
        (lambda (x)
          (define (sublist ls i j)
            (list-head (list-tail ls i) j))
          (define (cmp-vec ls i j)
            (apply bytevector
              `(,@(make-list i #xc7)
                ,@(sublist ls i j)
                ,@(make-list (fx- (length ls) (+ i j)) #xc7))))
          (let* ([ls '(1 254 3) #;'(1 254 3 252 5 250 7 249 8 248
                       9 247 10 246 40 216 80 176 100 156)]
                 [n (length ls)])
            #`(list #,@(let f ([i 0])
                         (if (fx= i n)
                           '()
                           #`((list #,@(let g ([j 1])
                                        (if (fx<= j (fx- n i))
                                            #`((equal?
                                                 (let ([v (make-bytevector #,n #xc7)])
                                                   (bytevector-uint-set! v #,i
                                                     #,(apply little-endian->unsigned (sublist ls i j))
                                                     'little #,j)
                                                   v)
                                                 '#,(cmp-vec ls i j))
                                               (equal?
                                                 (let ([v (make-bytevector #,n #xc7)])
                                                   (bytevector-uint-set! v #,i
                                                     #,(apply big-endian->unsigned (sublist ls i j))
                                                     'big #,j)
                                                   v)
                                                 '#,(cmp-vec ls i j))
                                               #,@(g (fx+ j 1)))
                                            '())))
                              #,@(f (fx+ i 1)))))))))
      a))

 ; nonconstant args
  (do ([i 100 (fx- i 1)])
      ((fx= i 0) #t)
    (let ([ls (map (lambda (x) (random 256)) (make-list (random 25)))])
      (unless (andmap (lambda (b*) (andmap (lambda (b) (eq? b #t)) b*))
                (let ()
                  (define (sublist ls i j)
                    (list-head (list-tail ls i) j))
                  (define (cmp-vec ls i j)
                    (apply bytevector
                      `(,@(make-list i #xc7)
                        ,@(sublist ls i j)
                        ,@(make-list (fx- (length ls) (+ i j)) #xc7))))
                  (let ([n (length ls)])
                    (let f ([i 0])
                      (if (fx= i n)
                          '()
                           (cons (let g ([j 1])
                                   (if (fx<= j (fx- n i))
                                       (cons*
                                         (equal?
                                           (let ([v (make-bytevector n #xc7)])
                                             (bytevector-uint-set! v i
                                               (apply little-endian->unsigned (sublist ls i j))
                                               'little j)
                                             v)
                                           (cmp-vec ls i j))
                                         (equal?
                                           (let ([v (make-bytevector n #xc7)])
                                             (bytevector-uint-set! v i
                                               (apply big-endian->unsigned (sublist ls i j))
                                               'big j)
                                             v)
                                           (cmp-vec ls i j))
                                         (g (fx+ j 1)))
                                       '()))
                                 (f (fx+ i 1))))))))
        (pretty-print ls)
        (errorf #f "failed for for ~s" ls))))
)

(mat bytevector-copy
 ; wrong argument count
  (error? (bytevector-copy))
  (error? (if (bytevector-copy #vu8() '#vu8()) #f #t))

 ; not a bytevector
  (error? (bytevector-copy '(a b c)))
  (error? (if (bytevector-copy '(a b c)) #f #t))

  (equal? (bytevector-copy #vu8()) '#vu8())
  (equal? (bytevector-copy #vu8(3 252 5)) '#vu8(3 252 5))
  (let* ([x1 (bytevector 1 2 3)] [x2 (bytevector-copy x1)])
    (and (equal? x2 x1) (not (eq? x2 x1))))
)

(mat bytevector-copy!
  (begin
    (define $v1 (bytevector 1 2 3 4))
    (define $v2 (bytevector 255 254 253 252 251 250 249 248 247))
    (and (bytevector? $v1)
         (bytevector? $v2)
         (eqv? (bytevector-length $v1) 4)
         (eqv? (bytevector-length $v2) 9)))

 ; wrong number of arguments
  (error? (bytevector-copy!))
  (error? (bytevector-copy! $v2))
  (error? (bytevector-copy! $v2 3))
  (error? (bytevector-copy! $v2 3 $v1))
  (error? (bytevector-copy! $v2 3 $v1 1))
  (error? (if (bytevector-copy! $v2 3 $v1 1 2 3) #f #t))

 ; not bytevector
  (error? (bytevector-copy! 0 0 $v2 0 0))
  (error? (if (bytevector-copy! $v1 0 (vector 1 2 3) 0 0) #f #t))

 ; bad index
  (error? (bytevector-copy! $v1 -1 $v2 0 0))
  (error? (bytevector-copy! $v1 0 $v2 -1 0))
  (error? (bytevector-copy! $v1 'a $v2 0 0))
  (error? (bytevector-copy! $v1 0 $v2 0.0 0))
  (error? (bytevector-copy! $v1 (+ (most-positive-fixnum) 1) $v2 0 0))
  (error? (if (bytevector-copy! $v1 0 $v2 (+ (most-positive-fixnum) 1) 0) #f #t))

 ; bad count
  (error? (bytevector-copy! $v1 0 $v2 0 -1))
  (error? (bytevector-copy! $v1 0 $v2 0 (+ (most-positive-fixnum) 1)))
  (error? (if (bytevector-copy! $v1 0 $v2 0 'a) #f #t))

 ; beyond end
  (error? (bytevector-copy! $v1 0 $v2 0 5))
  (error? (bytevector-copy! $v2 0 $v1 0 5))
  (error? (bytevector-copy! $v1 1 $v2 0 4))
  (error? (bytevector-copy! $v2 0 $v1 1 4))
  (error? (bytevector-copy! $v1 2 $v2 0 3))
  (error? (bytevector-copy! $v2 0 $v1 2 3))
  (error? (bytevector-copy! $v1 3 $v2 0 2))
  (error? (bytevector-copy! $v2 0 $v1 3 2))
  (error? (bytevector-copy! $v1 4 $v2 0 1))
  (error? (bytevector-copy! $v2 0 $v1 4 1))
  (error? (bytevector-copy! $v2 0 $v1 0 500))
  (error? (if (bytevector-copy! $v2 500 $v1 0 0) #f #t))

 ; make sure no damage done
  (and (bytevector? $v1)
       (bytevector? $v2)
       (equal? $v1 #vu8(1 2 3 4))
       (equal? $v2 #vu8(255 254 253 252 251 250 249 248 247)))

  (begin
    (bytevector-copy! $v2 3 $v1 1 2)
    (and (equal? $v1 #vu8(1 252 251 4))
         (equal? $v2 #vu8(255 254 253 252 251 250 249 248 247))))
  (begin
    (bytevector-copy! $v2 6 $v1 2 2)
    (and (equal? $v1 #vu8(1 252 249 248))
         (equal? $v2 #vu8(255 254 253 252 251 250 249 248 247))))
  (begin
    (bytevector-copy! $v2 0 $v1 4 0)
    (and (equal? $v1 #vu8(1 252 249 248))
         (equal? $v2 #vu8(255 254 253 252 251 250 249 248 247))))
  (begin
    (bytevector-copy! $v2 3 $v1 4 0)
    (and (equal? $v1 #vu8(1 252 249 248))
         (equal? $v2 #vu8(255 254 253 252 251 250 249 248 247))))
  (begin
    (bytevector-copy! $v2 3 $v2 4 0)
    (and (equal? $v1 #vu8(1 252 249 248))
         (equal? $v2 #vu8(255 254 253 252 251 250 249 248 247))))
  (begin
    (bytevector-copy! $v2 2 $v1 1 3)
    (and (equal? $v1 #vu8(1 253 252 251))
         (equal? $v2 #vu8(255 254 253 252 251 250 249 248 247))))
  (begin
    (bytevector-copy! $v1 0 $v2 3 4)
    (and (equal? $v1 #vu8(1 253 252 251))
         (equal? $v2 #vu8(255 254 253 1 253 252 251 248 247))))
  (begin
    (bytevector-copy! $v2 0 $v2 3 5)
    (and (equal? $v1 #vu8(1 253 252 251))
         (equal? $v2 #vu8(255 254 253 255 254 253 1 253 247))))
  (begin
    (bytevector-copy! $v2 4 $v2 2 5)
    (and (equal? $v1 #vu8(1 253 252 251))
         (equal? $v2 #vu8(255 254 254 253 1 253 247 253 247))))
  (begin
    (bytevector-copy! $v2 1 $v2 1 7)
    (and (equal? $v1 #vu8(1 253 252 251))
         (equal? $v2 #vu8(255 254 254 253 1 253 247 253 247))))
)

(mat bytevector-truncate!
  (begin
    (define $v (bytevector 1 2 3 4 5 6 7 8 9))
    (and (bytevector? $v)
         (fx= (bytevector-length $v) 9)
         (bytevector=? $v #vu8(1 2 3 4 5 6 7 8 9))))

 ; wrong number of arguments
  (error? (bytevector-truncate!))
  (error? (bytevector-truncate! $v))
  (error? (bytevector-truncate! $v 3 15))

 ; not bytevector
  (error? (bytevector-truncate! 0 0))
  (error? (if (bytevector-truncate! (string #\a #\b #\c) 2) #f #t))

 ; bad length
  (error? (bytevector-truncate! $v -1))
  (error? (bytevector-truncate! $v 10))
  (error? (bytevector-truncate! $v 1000))
  (error? (bytevector-truncate! $v (+ (most-positive-fixnum) 1)))
  (error? (bytevector-truncate! $v 'a))

  (begin
    (bytevector-truncate! $v 9)
    (and (bytevector? $v)
         (fx= (bytevector-length $v) 9)
         (bytevector=? $v #vu8(1 2 3 4 5 6 7 8 9))))

  (begin
    (bytevector-truncate! $v 8)
    (and (bytevector? $v)
         (fx= (bytevector-length $v) 8)
         (bytevector=? $v #vu8(1 2 3 4 5 6 7 8))))

  (begin
    (bytevector-truncate! $v 6)
    (and (bytevector? $v)
         (fx= (bytevector-length $v) 6)
         (bytevector=? $v #vu8(1 2 3 4 5 6))))

  (begin
    (bytevector-truncate! $v 3)
    (and (bytevector? $v)
         (fx= (bytevector-length $v) 3)
         (bytevector=? $v #vu8(1 2 3))))

  (begin
    (define $v2 (bytevector-truncate! $v 0))
    (and (eqv? $v2 #vu8())
         (bytevector? $v)
         (fx= (bytevector-length $v) 3)
         (bytevector=? $v #vu8(1 2 3))))
)

(mat bytevector-fill!
  (begin
    (define $v1 (bytevector 1 2 3 4))
    (define $v2 (bytevector 255 254 253 252 251 250 249 248 247))
    (and (bytevector? $v1)
         (bytevector? $v2)
         (eqv? (bytevector-length $v1) 4)
         (eqv? (bytevector-length $v2) 9)))

 ; wrong argument count
  (error? (bytevector-fill!))
  (error? (bytevector-fill! $v1))
  (error? (begin (bytevector-fill! $v1 0 0) #f))

 ; not a bytevector
  (error? (bytevector-fill! 'a 3))
  (error? (begin (let ([v (vector 1)]) (bytevector-fill! v 3)) #f))

 ; invalid fill
  (error? (bytevector-fill! $v1 -129))
  (error? (bytevector-fill! $v1 256))
  (error? (begin (bytevector-fill! $v1 'a) #f))

 ; make sure no damage done
  (and (bytevector? $v1)
       (bytevector? $v2)
       (equal? $v1 #vu8(1 2 3 4))
       (equal? $v2 #vu8(255 254 253 252 251 250 249 248 247)))

  (begin
    (bytevector-fill! $v1 -128)
    (and (bytevector? $v1)
         (equal? $v1 #vu8(128 128 128 128))))
  (begin
    (bytevector-fill! $v1 -1)
    (and (bytevector? $v1)
         (equal? $v1 #vu8(255 255 255 255))))
  (begin
    (bytevector-fill! $v1 0)
    (and (bytevector? $v1)
         (equal? $v1 #vu8(0 0 0 0))))
  (begin
    (bytevector-fill! $v1 127)
    (and (bytevector? $v1)
         (equal? $v1 #vu8(127 127 127 127))))
  (begin
    (bytevector-fill! $v1 128)
    (and (bytevector? $v1)
         (equal? $v1 #vu8(128 128 128 128))))
  (begin
    (bytevector-fill! $v1 255)
    (and (bytevector? $v1)
         (equal? $v1 #vu8(255 255 255 255))))
  (begin
    (bytevector-fill! $v2 -128)
    (and (bytevector? $v2)
         (equal? $v2 #vu8(128 128 128 128 128 128 128 128 128))))
  (begin
    (bytevector-fill! $v2 -1)
    (and (bytevector? $v2)
         (equal? $v2 #vu8(255 255 255 255 255 255 255 255 255))))
  (begin
    (bytevector-fill! $v2 0)
    (and (bytevector? $v2)
         (equal? $v2 #vu8(0 0 0 0 0 0 0 0 0))))
  (begin
    (bytevector-fill! $v2 127)
    (and (bytevector? $v2)
         (equal? $v2 #vu8(127 127 127 127 127 127 127 127 127))))
  (begin
    (bytevector-fill! $v2 128)
    (and (bytevector? $v2)
         (equal? $v2 #vu8(128 128 128 128 128 128 128 128 128))))
  (begin
    (bytevector-fill! $v2 255)
    (and (bytevector? $v2)
         (equal? $v2 #vu8(255 255 255 255 255 255 255 255 255))))

  (let ([v (bytevector-copy '#5vu8(1 2 3 4 5))])
    (and (equal? v '#5vu8(1 2 3 4 5))
         (begin
           (bytevector-fill! v 9)
           (equal? v '#5vu8(9)))))
  (let ([v (bytevector-copy '#5vu8(1 2 3 4 5))])
    (and (equal? v '#5vu8(1 2 3 4 5))
         (begin
           (bytevector-fill! v -17)
           (equal? v '#5vu8(239)))))
  (do ([q 10000 (fx- q 1)])
      ((fx= q 0) #t)
    (let ([v (bytevector 3 4 5)])
      (do ([n -128 (fx+ n 1)])
          ((fx= n 128) #t)
        (bytevector-fill! v n)
        (unless (and (eqv? (bytevector-s8-ref v 0) n)
                     (eqv? (bytevector-s8-ref v 1) n)
                     (eqv? (bytevector-s8-ref v 2) n))
          (errorf #f "wrong value for ~s" n)))))
  (do ([q 10000 (fx- q 1)])
      ((fx= q 0) #t)
    (let ([v (bytevector 3 4 5)])
      (do ([n 0 (fx+ n 1)])
          ((fx= n 255) #t)
        (bytevector-fill! v n)
        (unless (and (eqv? (bytevector-u8-ref v 0) n)
                     (eqv? (bytevector-u8-ref v 1) n)
                     (eqv? (bytevector-u8-ref v 2) n))
          (errorf #f "wrong value for ~s" n)))))
)

(mat s8-list->bytevector
 ; wrong argument count
  (error? (s8-list->bytevector))
  (error? (begin (s8-list->bytevector '(1 -2 3) '(1 -2 3)) #t))

 ; not a list
  (error? (s8-list->bytevector '#(a b c)))
  (error? (begin (s8-list->bytevector '#(a b c)) #t))

 ; improper or cyclic list
  (error? (s8-list->bytevector '(1 2 . 3)))
  (error? (s8-list->bytevector (let ([ls (list 1 2 3)]) (set-cdr! (cddr ls) (cdr ls)) ls)))

 ; invalid value
  (error? (s8-list->bytevector '(1 -129 3)))
  (error? (begin (s8-list->bytevector '(1 128 3)) #t))

  (equal? (s8-list->bytevector '(1 -2 3)) #vu8(1 254 3))
  (equal? (s8-list->bytevector '()) #vu8())
  (do ([n -128 (fx+ n 1)])
      ((fx= n 128) #t)
    (let ([v (s8-list->bytevector (list 3 n 4))])
      (unless (and (eqv? (bytevector-s8-ref v 0) 3)
                   (eqv? (bytevector-s8-ref v 1) n)
                   (eqv? (bytevector-s8-ref v 2) 4))
        (errorf #f "wrong value for ~s" n))))
)

(mat u8-list->bytevector
 ; wrong argument count
  (error? (u8-list->bytevector))
  (error? (begin (u8-list->bytevector '(1 2 3) '(1 2 3)) #t))

 ; not a bytevector
  (error? (u8-list->bytevector '#(a b c)))
  (error? (begin (u8-list->bytevector '#(a b c)) #t))

 ; invalid value
  (error? (u8-list->bytevector '(1 -129 3)))
  (error? (begin (u8-list->bytevector '(1 -1 3)) #t))

 ; improper or cyclic list
  (error? (u8-list->bytevector '(1 2 . 3)))
  (error? (u8-list->bytevector (let ([ls (list 1 2 3)]) (set-cdr! (cddr ls) (cdr ls)) ls)))

  (equal? (u8-list->bytevector '(1 2 3)) #vu8(1 2 3))
  (equal? (u8-list->bytevector '()) #vu8())
  (do ([n 0 (fx+ n 1)])
      ((fx= n 255) #t)
    (let ([v (u8-list->bytevector (list 3 n 4))])
      (unless (and (eqv? (bytevector-u8-ref v 0) 3)
                   (eqv? (bytevector-u8-ref v 1) n)
                   (eqv? (bytevector-u8-ref v 2) 4))
        (errorf #f "wrong value for ~s" n))))
)

(mat bytevector->s8-list
 ; wrong argument count
  (error? (bytevector->s8-list))
  (error? (begin (bytevector->s8-list #vu8(1 2 3) '#vu8(1 2 3)) #t))

 ; not a bytevector
  (error? (begin (bytevector->s8-list "hello") #t))
  (error? (bytevector->s8-list '(a b c)))

  (equal? (bytevector->s8-list #vu8(1 255 3)) '(1 -1 3))
  (equal? (bytevector->s8-list #vu8(1 255 253 4)) '(1 -1 -3 4))
  (equal? (bytevector->s8-list #vu8()) '())
)

(mat bytevector->u8-list
 ; wrong argument count
  (error? (bytevector->u8-list))
  (error? (begin (bytevector->u8-list #vu8(1 2 3) '#vu8(1 2 3)) #t))

 ; not a bytevector
  (error? (bytevector->u8-list "hello"))
  (error? (begin (bytevector->u8-list '(a b c)) #t))

  (equal? (bytevector->u8-list #vu8(1 2 3)) '(1 2 3))
  (equal? (bytevector->u8-list #vu8(1 255 253 4)) '(1 255 253 4))
  (equal? (bytevector->u8-list #vu8()) '())
)

(mat sint-list->bytevector
 ; wrong argument count
  (error? (sint-list->bytevector))
  (error? (sint-list->bytevector '(1 3 7) 'little))
  (error? (begin (sint-list->bytevector '(1 -3 7) 'big 1 0) #t))

 ; not a list
  (error? (sint-list->bytevector '#(a b c) 'little 1))
  (error? (begin (sint-list->bytevector '#(a b c) 'little 1) #t))

 ; improper or cyclic list
  (error? (sint-list->bytevector '(1 2 . 3) 'little 1))
  (error? (sint-list->bytevector (let ([ls (list 1 2 3)]) (set-cdr! (cddr ls) (cdr ls)) ls) 'little 1))

 ; invalid value
  (error? (sint-list->bytevector '(0 #x-81 0) 'big 1))
  (error? (sint-list->bytevector '(0 #x-81 0) 'little 1))
  (error? (sint-list->bytevector '(0 #x80 0) (native-endianness) 1))
  (error? (sint-list->bytevector '(0 #x80 0) 'little 1))
  (error? (sint-list->bytevector '(0 #x-8001 0) (native-endianness) 2))
  (error? (sint-list->bytevector '(0 #x-8001 0) 'little 2))
  (error? (sint-list->bytevector '(0 #x8000 0) 'big 2))
  (error? (sint-list->bytevector '(0 #x8000 0) 'little 2))
  (error? (sint-list->bytevector '(0 #x-800001 0) 'big 3))
  (error? (sint-list->bytevector '(0 #x-800001 0) 'little 3))
  (error? (sint-list->bytevector '(0 #x800000 0) 'big 3))
  (error? (sint-list->bytevector '(0 #x800000 0) (native-endianness) 3))
  (error? (sint-list->bytevector '(0 #x-80000001 0) 'big 4))
  (error? (sint-list->bytevector '(0 #x-80000001 0) 'little 4))
  (error? (sint-list->bytevector '(0 #x80000000 0) (native-endianness) 4))
  (error? (sint-list->bytevector '(0 #x80000000 0) 'little 4))
  (error? (sint-list->bytevector '(0 #x-8000000000000001 0) 'big 8))
  (error? (sint-list->bytevector '(0 #x-8000000000000001 0) (native-endianness) 8))
  (error? (sint-list->bytevector '(0 #x8000000000000000 0) 'big 8))
  (error? (sint-list->bytevector '(0 #x8000000000000000 0) 'little 8))
  (error? (sint-list->bytevector '(0 #x-80000000000000000001 0) (native-endianness) 10))
  (error? (sint-list->bytevector '(0 #x-80000000000000000001 0) 'little 10))
  (error? (sint-list->bytevector '(0 #x80000000000000000000 0) 'big 10))
  (error? (begin (sint-list->bytevector '(0 #x80000000000000000000 0) 'little 10) #t))

 ; invalid endianness
  (error? (sint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'spam 1))
  (error? (sint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'spam 2))
  (error? (sint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'spam 3))
  (error? (sint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'spam 4))
  (error? (sint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'spam 6))
  (error? (begin (sint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'spam 12) #t))

 ; invalid size
  (error? (sint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'big -1))
  (error? (sint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'big 0))
  (error? (sint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'big 1.0))
  (error? (begin (sint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'big "oops") #t))

  (equal?
    (sint-list->bytevector '(#x-1 #x01 #x02 #x-5 #x-80 #x7f) 'little 1)
    #vu8(#xff #x01 #x02 #xfb #x80 #x7f))

  (equal?
    (sint-list->bytevector '(#x7f #x-80 -5 #x2 #x1 -1) 'big 1)
    #vu8(#x7f #x80 #xfb #x2 #x1 #xff))

  (equal?
    (sint-list->bytevector '(#x-ff #x2FB #x-7f81) 'big 2)
    #vu8(#xff #x01 #x02 #xfb #x80 #x7f))

  (equal?
    (sint-list->bytevector
      (list (little-endian->signed #xff 1 3 #xa0)
            (little-endian->signed #x71 #x82 #x95 #x61)
            (little-endian->signed #x91 #xa2 #xb5 #xc1)
            (little-endian->signed 5 2 3 4))
      'little 4)
    #vu8(#xff #x01 #x03 #xa0 #x71 #x82 #x95 #x61 #x91 #xa2 #xb5 #xc1 5 2 3 4))

  (equal?
    (sint-list->bytevector
      (list (little-endian->signed #xff 1 3 #xa0 #x55)
            (little-endian->signed #x71 #x82 #x95 #x61 #x85)
            (little-endian->signed #x91 #xa2 #xb5 #xc1 #x99)
            (little-endian->signed 5 2 3 4 6))
      'little 5)
    #vu8(#xff #x01 #x03 #xa0 #x55 #x71 #x82 #x95 #x61 #x85 #x91 #xa2 #xb5 #xc1 #x99 5 2 3 4 6))

  (equal?
    (sint-list->bytevector
      (list (little-endian->signed #xff 1 3 #xa0 #x71 #x82 #x95 #x98)
            (little-endian->signed #x91 #xa2 #xb5 #xc1 5 2 3 4))
      'little 8)
    #vu8(#xff #x01 #x03 #xa0 #x71 #x82 #x95 #x98 #x91 #xa2 #xb5 #xc1 5 2 3 4))

  (do ([q 500 (fx- q 1)])
      ((fx= q 0) #t)
    (do ([i 1 (fx+ i 1)])
        ((fx= i 25))
      (let ([ls* (map (lambda (x) (map (lambda (x) (random 256)) (make-list i)))
                      (make-list (random 10)))])
        (unless (equal?
                  (sint-list->bytevector (map (lambda (ls) (apply little-endian->signed ls)) ls*) 'little i)
                  (apply bytevector (apply append ls*)))
          (pretty-print ls*)
          (errorf #f "failed for ~s (little)" ls*))
        (unless (equal?
                  (sint-list->bytevector (map (lambda (ls) (apply big-endian->signed ls)) ls*) 'big i)
                  (apply bytevector (apply append ls*)))
          (pretty-print ls*)
          (errorf #f "failed for ~s (big)" ls*)))))
)

(mat uint-list->bytevector
 ; wrong argument count
  (error? (uint-list->bytevector))
  (error? (uint-list->bytevector '(1 3 7) 'little))
  (error? (begin (uint-list->bytevector '(1 -3 7) 'big 1 0) #t))

 ; not a list
  (error? (uint-list->bytevector '#(a b c) 'little 1))
  (error? (begin (uint-list->bytevector '#(a b c) 'little 1) #t))

 ; improper or cyclic list
  (error? (uint-list->bytevector '(1 2 . 3) 'little 1))
  (error? (uint-list->bytevector (let ([ls (list 1 2 3)]) (set-cdr! (cddr ls) (cdr ls)) ls) 'little 1))

 ; invalid value
  (error? (uint-list->bytevector '(0 #x-1 0) 'big 1))
  (error? (uint-list->bytevector '(0 #x-1 0) 'little 1))
  (error? (uint-list->bytevector '(0 #x100 0) (native-endianness) 1))
  (error? (uint-list->bytevector '(0 #x100 0) 'little 1))
  (error? (uint-list->bytevector '(0 x-1 0) (native-endianness) 2))
  (error? (uint-list->bytevector '(0 x-1 0) 'little 2))
  (error? (uint-list->bytevector '(0 #x10000 0) 'big 2))
  (error? (uint-list->bytevector '(0 #x10000 0) 'little 2))
  (error? (uint-list->bytevector '(0 x-1 0) 'big 3))
  (error? (uint-list->bytevector '(0 x-1 0) 'little 3))
  (error? (uint-list->bytevector '(0 #x1000000 0) 'big 3))
  (error? (uint-list->bytevector '(0 #x1000000 0) (native-endianness) 3))
  (error? (uint-list->bytevector '(0 x-1 0) 'big 4))
  (error? (uint-list->bytevector '(0 x-1 0) 'little 4))
  (error? (uint-list->bytevector '(0 #x100000000 0) (native-endianness) 4))
  (error? (uint-list->bytevector '(0 #x100000000 0) 'little 4))
  (error? (uint-list->bytevector '(0 x-1 0) 'big 8))
  (error? (uint-list->bytevector '(0 x-1 0) (native-endianness) 8))
  (error? (uint-list->bytevector '(0 #x10000000000000000 0) 'big 8))
  (error? (uint-list->bytevector '(0 #x10000000000000000 0) 'little 8))
  (error? (uint-list->bytevector '(0 x-1 0) (native-endianness) 10))
  (error? (uint-list->bytevector '(0 x-1 0) 'little 10))
  (error? (uint-list->bytevector '(0 #x100000000000000000000 0) 'big 10))
  (error? (begin (uint-list->bytevector '(0 #x100000000000000000000 0) 'little 10) #t))

 ; invalid endianness
  (error? (uint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'spam 1))
  (error? (uint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'spam 2))
  (error? (uint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'spam 3))
  (error? (uint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'spam 4))
  (error? (uint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'spam 6))
  (error? (begin (uint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'spam 12) #t))

 ; invalid size
  (error? (uint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'big -1))
  (error? (uint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'big 0))
  (error? (uint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'big 1.0))
  (error? (begin (uint-list->bytevector '(1 3 7 4 3 -3 5 -6 127 -128 -50 50) 'big "oops") #t))

  (equal?
    (uint-list->bytevector '(#xff #x01 #x02 #xfb #x80 #x7f) 'little 1)
    #vu8(#xff #x01 #x02 #xfb #x80 #x7f))

  (equal?
    (uint-list->bytevector '(#x7f #x80 #xfb #x2 #x1 #xff) 'big 1)
    #vu8(#x7f #x80 #xfb #x2 #x1 #xff))

  (equal?
    (uint-list->bytevector '(#xff01 #x2FB #x807f) 'big 2)
    #vu8(#xff #x01 #x02 #xfb #x80 #x7f))

  (equal?
    (uint-list->bytevector
      (list (little-endian->unsigned #xff 1 3 #xa0)
            (little-endian->unsigned #x71 #x82 #x95 #x61)
            (little-endian->unsigned #x91 #xa2 #xb5 #xc1)
            (little-endian->unsigned 5 2 3 4))
      'little 4)
    #vu8(#xff #x01 #x03 #xa0 #x71 #x82 #x95 #x61 #x91 #xa2 #xb5 #xc1 5 2 3 4))

  (equal?
    (uint-list->bytevector
      (list (little-endian->unsigned #xff 1 3 #xa0 #x55)
            (little-endian->unsigned #x71 #x82 #x95 #x61 #x85)
            (little-endian->unsigned #x91 #xa2 #xb5 #xc1 #x99)
            (little-endian->unsigned 5 2 3 4 6))
      'little 5)
    #vu8(#xff #x01 #x03 #xa0 #x55 #x71 #x82 #x95 #x61 #x85 #x91 #xa2 #xb5 #xc1 #x99 5 2 3 4 6))

  (equal?
    (uint-list->bytevector
      (list (little-endian->unsigned #xff 1 3 #xa0 #x71 #x82 #x95 #x98)
            (little-endian->unsigned #x91 #xa2 #xb5 #xc1 5 2 3 4))
      'little 8)
    #vu8(#xff #x01 #x03 #xa0 #x71 #x82 #x95 #x98 #x91 #xa2 #xb5 #xc1 5 2 3 4))

  (do ([q 500 (fx- q 1)])
      ((fx= q 0) #t)
    (do ([i 1 (fx+ i 1)])
        ((fx= i 25))
      (let ([ls* (map (lambda (x) (map (lambda (x) (random 256)) (make-list i)))
                      (make-list (random 10)))])
        (unless (equal?
                  (uint-list->bytevector (map (lambda (ls) (apply little-endian->unsigned ls)) ls*) 'little i)
                  (apply bytevector (apply append ls*)))
          (pretty-print ls*)
          (errorf #f "failed for ~s (little)" ls*))
        (unless (equal?
                  (uint-list->bytevector (map (lambda (ls) (apply big-endian->unsigned ls)) ls*) 'big i)
                  (apply bytevector (apply append ls*)))
          (pretty-print ls*)
          (errorf #f "failed for ~s (big)" ls*)))))
)

(mat bytevector->sint-list
 ; wrong argument count
  (error? (bytevector->sint-list))
  (error? (bytevector->sint-list #vu8(1 3 7) 'little))
  (error? (begin (bytevector->sint-list #vu8(1 253 7) 'big 1 0) #t))

 ; not a bytevector
  (error? (bytevector->sint-list '#(a b c) 'little 1))
  (error? (begin (bytevector->sint-list '#(a b c) 'little 1) #t))

 ; invalid endianness
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'spam 1))
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'spam 2))
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'spam 3))
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'spam 4))
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'spam 6))
  (error? (begin (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'spam 12) #t))

 ; invalid size
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big -1))
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big 0))
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big 1.0))
  (error? (begin (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big "oops") #t))

 ; length not multiple of size
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big 5))
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'little 7))
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big 8))
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) (native-endianness) 9))
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big 10))
  (error? (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'little 11))
  (error? (begin (bytevector->sint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) (native-endianness) 50) #t))

  (equal?
    (bytevector->sint-list #vu8(#xff #x01 #x02 #xfb #x80 #x7f) 'little 1)
    '(#x-1 #x01 #x02 #x-5 #x-80 #x7f))

  (equal?
    (bytevector->sint-list #vu8(#x7f #x80 #xfb #x2 #x1 #xff) 'big 1)
    '(#x7f #x-80 -5 #x2 #x1 -1))

  (equal?
    (bytevector->sint-list #vu8(#xff #x01 #x02 #xfb #x80 #x7f) 'big 2)
    '(#x-ff #x2FB #x-7f81))

  (equal?
    (bytevector->sint-list
      #vu8(#xff #x01 #x03 #xa0 #x71 #x82 #x95 #x61 #x91 #xa2 #xb5 #xc1 5 2 3 4)
      'little 4)
    (list (little-endian->signed #xff 1 3 #xa0)
          (little-endian->signed #x71 #x82 #x95 #x61)
          (little-endian->signed #x91 #xa2 #xb5 #xc1)
          (little-endian->signed 5 2 3 4)))

  (equal?
    (bytevector->sint-list
      #vu8(#xff #x01 #x03 #xa0 #x55 #x71 #x82 #x95 #x61 #x85 #x91 #xa2 #xb5 #xc1 #x99 5 2 3 4 6)
      'little 5)
    (list (little-endian->signed #xff 1 3 #xa0 #x55)
          (little-endian->signed #x71 #x82 #x95 #x61 #x85)
          (little-endian->signed #x91 #xa2 #xb5 #xc1 #x99)
          (little-endian->signed 5 2 3 4 6)))

  (equal?
    (bytevector->sint-list
      #vu8(#xff #x01 #x03 #xa0 #x71 #x82 #x95 #x98 #x91 #xa2 #xb5 #xc1 5 2 3 4)
      'little 8)
    (list (little-endian->signed #xff 1 3 #xa0 #x71 #x82 #x95 #x98)
          (little-endian->signed #x91 #xa2 #xb5 #xc1 5 2 3 4)))

  (do ([q 500 (fx- q 1)])
      ((fx= q 0) #t)
    (do ([i 1 (fx+ i 1)])
        ((fx= i 25))
      (let ([ls* (map (lambda (x) (map (lambda (x) (random 256)) (make-list i)))
                      (make-list (random 10)))])
        (unless (equal?
                  (bytevector->sint-list (apply bytevector (apply append ls*)) 'little i)
                  (map (lambda (ls) (apply little-endian->signed ls)) ls*))
          (pretty-print ls*)
          (errorf #f "failed for ~s (little)" ls*))
        (unless (equal?
                  (bytevector->sint-list (apply bytevector (apply append ls*)) 'big i)
                  (map (lambda (ls) (apply big-endian->signed ls)) ls*))
          (pretty-print ls*)
          (errorf #f "failed for ~s (big)" ls*)))))
)

(mat bytevector->uint-list
 ; wrong argument count
  (error? (bytevector->uint-list))
  (error? (bytevector->uint-list #vu8(1 3 7) 'little))
  (error? (begin (bytevector->uint-list #vu8(1 253 7) 'big 1 0) #t))

 ; not a bytevector
  (error? (bytevector->uint-list '#(a b c) 'little 1))
  (error? (begin (bytevector->uint-list '#(a b c) 'little 1) #t))

 ; invalid endianness
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'spam 1))
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'spam 2))
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'spam 3))
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'spam 4))
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'spam 6))
  (error? (begin (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'spam 12) #t))

 ; invalid size
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big -1))
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big 0))
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big 1.0))
  (error? (begin (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big "oops") #t))

 ; length not multiple of size
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big 5))
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'little 7))
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big 8))
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) (native-endianness) 9))
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'big 10))
  (error? (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) 'little 11))
  (error? (begin (bytevector->uint-list #vu8(1 3 7 4 3 253 5 250 127 128 206 50) (native-endianness) 50) #t))

  (equal?
    (bytevector->uint-list #vu8(#xff #x01 #x02 #xfb #x80 #x7f) 'little 1)
    '(#xff #x01 #x02 #xfb #x80 #x7f))

  (equal?
    (bytevector->uint-list #vu8(#x7f #x80 #xfb #x2 #x1 #xff) 'big 1)
    '(#x7f #x80 #xfb #x2 #x1 #xff))

  (equal?
    (bytevector->uint-list #vu8(#xff #x01 #x02 #xfb #x80 #x7f) 'big 2)
    '(#xff01 #x2FB #x807f))

  (equal?
    (bytevector->uint-list
      #vu8(#xff #x01 #x03 #xa0 #x71 #x82 #x95 #x61 #x91 #xa2 #xb5 #xc1 5 2 3 4)
      'little 4)
    (list (little-endian->unsigned #xff 1 3 #xa0)
          (little-endian->unsigned #x71 #x82 #x95 #x61)
          (little-endian->unsigned #x91 #xa2 #xb5 #xc1)
          (little-endian->unsigned 5 2 3 4)))

  (equal?
    (bytevector->uint-list
      #vu8(#xff #x01 #x03 #xa0 #x55 #x71 #x82 #x95 #x61 #x85 #x91 #xa2 #xb5 #xc1 #x99 5 2 3 4 6)
      'little 5)
    (list (little-endian->unsigned #xff 1 3 #xa0 #x55)
          (little-endian->unsigned #x71 #x82 #x95 #x61 #x85)
          (little-endian->unsigned #x91 #xa2 #xb5 #xc1 #x99)
          (little-endian->unsigned 5 2 3 4 6)))

  (equal?
    (bytevector->uint-list
      #vu8(#xff #x01 #x03 #xa0 #x71 #x82 #x95 #x98 #x91 #xa2 #xb5 #xc1 5 2 3 4)
      'little 8)
    (list (little-endian->unsigned #xff 1 3 #xa0 #x71 #x82 #x95 #x98)
          (little-endian->unsigned #x91 #xa2 #xb5 #xc1 5 2 3 4)))

  (do ([q 500 (fx- q 1)])
      ((fx= q 0) #t)
    (do ([i 1 (fx+ i 1)])
        ((fx= i 25))
      (let ([ls* (map (lambda (x) (map (lambda (x) (random 256)) (make-list i)))
                      (make-list (random 10)))])
        (unless (equal?
                  (bytevector->uint-list (apply bytevector (apply append ls*)) 'little i)
                  (map (lambda (ls) (apply little-endian->unsigned ls)) ls*))
          (pretty-print ls*)
          (errorf #f "failed for ~s (little)" ls*))
        (unless (equal?
                  (bytevector->uint-list (apply bytevector (apply append ls*)) 'big i)
                  (map (lambda (ls) (apply big-endian->unsigned ls)) ls*))
          (pretty-print ls*)
          (errorf #f "failed for ~s (big)" ls*)))))
)

(mat bytevector=?
 ; wrong argument count
  (error? (bytevector=?))
  (error? (bytevector=? #vu8()))
  (error? (begin (bytevector=? #vu8() '#vu8() '#vu8()) #t))

 ; not a bytevector
  (error? (bytevector=? #vu8() 'a))
  (error? (begin (bytevector=? "a" #vu8()) #t))

  (bytevector=? #vu8() (bytevector))
  (bytevector=? #vu8() (make-bytevector 0))
  (bytevector=? #vu8() (make-bytevector 0 17))
  (bytevector=? #vu8() (make-bytevector 0 -17))
  (not (bytevector=? #vu8() (bytevector 1)))
  (not (bytevector=? #vu8() (make-bytevector 1)))
  (not (bytevector=? #vu8() (make-bytevector 1 17)))
  (not (bytevector=? #vu8() (make-bytevector 1 -17)))
  (bytevector=? #vu8(1 2 3 4) (bytevector 1 2 3 4))
  (not (bytevector=? #vu8(1 2 3 4) (bytevector 1 2 4 3)))
  (not (bytevector=? #vu8(1 2 3 4) (bytevector 1 2 3)))
  (not (bytevector=? #vu8(1 2 3 4) (bytevector 1 2)))
  (not (bytevector=? #vu8(1 2 3 4) (bytevector 1)))
  (not (bytevector=? #vu8(1 2 3 4) (bytevector)))
  (bytevector=? (bytevector 255 254 253) (bytevector -1 -2 -3))
  (do ([n 1 (fx+ n 1)])
      ((fx= n 1000) #t)
    (let* ([v1 (u8-list->bytevector
                 (map (lambda (x) (random 256)) (make-list n)))]
           [v2 (bytevector-copy v1)])
      (when (eq? v1 v2) (errorf #f "copy is eq to original"))
      (unless (bytevector=? v1 v2)
        (pretty-print v1)
        (errorf #f "first bytevector=? failed for ~s (see output for vector)" n))
      (do ([i 0 (fx+ i 1)])
          ((fx= i n))
        (let ([k (bytevector-u8-ref v2 i)])
          (bytevector-u8-set! v2 i (fxmodulo (fx+ k 1) 256))
          (when (bytevector=? v1 v2)
            (pretty-print v1)
            (pretty-print v2)
            (errorf #f "second bytevector=? failed for n=~s and i=~s (see output for vector)" n i))
          (bytevector-u8-set! v2 i k))
        (unless (bytevector=? v1 v2)
          (pretty-print v1)
          (errorf #f "third bytevector=? failed for n=~s and i=~s (see output for vector)" n i)))))
)

(mat r6rs-bytevector-examples
  (equal?
    (let ([b (u8-list->bytevector '(1 2 3 4 5 6 7 8))])
      (bytevector-copy! b 0 b 3 4)
      (bytevector->u8-list b))
    '(1 2 3 1 2 3 4 8))


  (equal?
    (let ([b1 (make-bytevector 16 -127)]
          [b2 (make-bytevector 16 255)])
      (list
        (bytevector-s8-ref b1 0)
        (bytevector-u8-ref b1 0)
        (bytevector-s8-ref b2 0)
        (bytevector-u8-ref b2 0)))
    '(-127 129 -1 255))

  (equal?
    (let ([b (make-bytevector 16 -127)])
      (bytevector-s8-set! b 0 -126)
      (bytevector-u8-set! b 1 246)
      (list
        (bytevector-s8-ref b 0)
        (bytevector-u8-ref b 0)
        (bytevector-s8-ref b 1)
        (bytevector-u8-ref b 1)))
    '(-126 130 -10 246))

  (begin
    (define $bv (make-bytevector 16 -127))
    (bytevector? $bv))

  (eqv?
    (begin
      (bytevector-uint-set! $bv 0 (- (expt 2 128) 3)
        (endianness little) 16)
      (bytevector-uint-ref $bv 0 (endianness little) 16))
    #xfffffffffffffffffffffffffffffffd)

  (eqv? (bytevector-sint-ref $bv 0 (endianness little) 16) -3)

  (equal?
    (bytevector->u8-list $bv)
    '(253 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255))

  (eqv?
    (begin
      (bytevector-uint-set! $bv 0 (- (expt 2 128) 3)
        (endianness big) 16)
      (bytevector-uint-ref $bv 0 (endianness big) 16))
    #xfffffffffffffffffffffffffffffffd)

  (eqv? (bytevector-sint-ref $bv 0 (endianness big) 16) -3)

  (equal?
    (bytevector->u8-list $bv)
    '(255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 253))

  (equal?
    (let ([b (u8-list->bytevector '(1 2 3 255 1 2 1 2))])
      (bytevector->sint-list b (endianness little) 2))
    '(513 -253 513 513))

  (equal?
    (let ([b (u8-list->bytevector '(1 2 3 255 1 2 1 2))])
      (bytevector->uint-list b (endianness little) 2))
    '(513 65283 513 513))

  (begin
    (define $bv
      (u8-list->bytevector
        '(255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 253)))
    (bytevector? $bv))

  (eqv? (bytevector-u16-ref $bv 14 (endianness little)) 65023)
  (eqv? (bytevector-s16-ref $bv 14 (endianness little)) -513)
  (eqv? (bytevector-u16-ref $bv 14 (endianness big)) 65533)
  (eqv? (bytevector-s16-ref $bv 14 (endianness big)) -3)

  (eqv?
    (begin
      (bytevector-u16-set! $bv 0 12345 (endianness little))
      (bytevector-u16-ref $bv 0 (endianness little)))
    12345)

  (eqv?
    (begin
      (bytevector-u16-native-set! $bv 0 12345)
      (bytevector-u16-native-ref $bv 0))
    12345)

  (and (memv (bytevector-u16-ref $bv 0 (endianness little)) '(12345 14640)) #t)

  (begin
    (define $bv
      (u8-list->bytevector
        '(255 255 255 255 255 255 255 255
          255 255 255 255 255 255 255 253)))
    (bytevector? $bv))

  (eqv? (bytevector-u32-ref $bv 12 (endianness little)) 4261412863)
  (eqv? (bytevector-s32-ref $bv 12 (endianness little)) -33554433)
  (eqv? (bytevector-u32-ref $bv 12 (endianness big)) 4294967293)
  (eqv? (bytevector-s32-ref $bv 12 (endianness big)) -3)

  (begin
    (define $bv
      (u8-list->bytevector
        '(255 255 255 255 255 255 255 255
          255 255 255 255 255 255 255 253)))
    (bytevector? $bv))

  (eqv? (bytevector-u64-ref $bv 8 (endianness little)) '18302628885633695743)
  (eqv? (bytevector-s64-ref $bv 8 (endianness little)) '-144115188075855873)
  (eqv? (bytevector-u64-ref $bv 8 (endianness big)) '18446744073709551613)
  (eqv? (bytevector-s64-ref $bv 8 (endianness big)) '-3)
)

(mat refimpl-tests
  ; rkd: the following tests are adapted from the bytevector reference
  ; implementation tests bytevector-tests.sch, which is:
  
  ; Copyright 2007 William D Clinger.
  ;
  ; Permission to copy this software, in whole or in part, to use this
  ; software for any lawful purpose, and to redistribute this software
  ; is granted subject to the restriction that all copies made of this
  ; software must include this copyright notice in full.
  ;
  ; I also request that you send me a copy of any improvements that you
  ; make to this software so that they may be incorporated within it to
  ; the benefit of the Scheme community.

  ; rkd: commented out some tests (look for "rkd") because they are
  ; implementation-dependent or require non-R6RS functionality or behavior.
  (begin
    ; rkd: writing code to a file first to get useful file positions for errors
    (with-output-to-file "testfile-bytevector.ss"
      (lambda ()
        (pretty-print '
          (define (bytevector-refimpl-tests)
            (define *random-stress-tests* 100)
            (define *random-stress-test-max-size* 50)

            ; rkd: rewrote to support for our test infrastructure
            (define okay? #t)
            (define-syntax test
              (syntax-rules (=> error)
                ((test exp => result)
                 (guard (c [#t (display-condition c) (newline) (set! okay? #f)])
                   (unless (equal? exp 'result) (syntax-error #'exp "failed"))))))

            (define (basic-bytevector-tests)
              (test (endianness big) => big)
              (test (endianness little) => little)

              (test (or (eq? (native-endianness) 'big)
                        (eq? (native-endianness) 'little)) => #t)

              (test (bytevector? (vector)) => #f)
              (test (bytevector? (make-bytevector 3)) => #t)

              (test (bytevector-length (make-bytevector 44)) => 44)

              (test (let ((b1 (make-bytevector 16 -127))
                          (b2 (make-bytevector 16 255)))
                      (list
                        (bytevector-s8-ref b1 0)
                        (bytevector-u8-ref b1 0)
                        (bytevector-s8-ref b2 0)
                        (bytevector-u8-ref b2 0))) => (-127 129 -1 255))

              (test (let ((b (make-bytevector 16 -127)))
                      (bytevector-s8-set! b 0 -126)
                      (bytevector-u8-set! b 1 246)
                      (list
                        (bytevector-s8-ref b 0)
                        (bytevector-u8-ref b 0)
                        (bytevector-s8-ref b 1)
                        (bytevector-u8-ref b 1))) => (-126 130 -10 246))

              (let ()
                (define b (make-bytevector 16 -127))
                (bytevector-uint-set! b 0 (- (expt 2 128) 3) (endianness little) 16)

                (test (bytevector-uint-ref b 0 (endianness little) 16)
                  => #xfffffffffffffffffffffffffffffffd)

                (test (bytevector-sint-ref b 0 (endianness little) 16) => -3)

                (test (bytevector->u8-list b)
                  => (253 255 255 255 255 255 255 255
                       255 255 255 255 255 255 255 255))

                (bytevector-uint-set! b 0 (- (expt 2 128) 3) (endianness big) 16)

                (test (bytevector-uint-ref b 0 (endianness big) 16)
                  => #xfffffffffffffffffffffffffffffffd)

                (test (bytevector-sint-ref b 0 (endianness big) 16) => -3)

                (test (bytevector->u8-list b)
                  => (255 255 255 255 255 255 255 255
                       255 255 255 255 255 255 255 253)))

              (let ()
                (define b
                  (u8-list->bytevector
                    '(255 255 255 255 255 255 255 255
                       255 255 255 255 255 255 255 253)))

                (test (bytevector-u16-ref b 14 (endianness little)) => 65023)

                (test (bytevector-s16-ref b 14 (endianness little)) => -513)

                (test (bytevector-u16-ref b 14 (endianness big)) => 65533)

                (test (bytevector-s16-ref b 14 (endianness big)) => -3)

                (bytevector-u16-set! b 0 12345 (endianness little))

                (test (bytevector-u16-ref b 0 (endianness little)) => 12345)

                (bytevector-u16-native-set! b 0 12345)

                (test (bytevector-u16-native-ref b 0) => 12345))

              (let ()
                (define b
                  (u8-list->bytevector
                    '(255 255 255 255 255 255 255 255
                       255 255 255 255 255 255 255 253)))

                (test (bytevector-u32-ref b 12 (endianness little)) => 4261412863)

                (test (bytevector-s32-ref b 12 (endianness little)) => -33554433)

                (test (bytevector-u32-ref b 12 (endianness big)) => 4294967293)

                (test (bytevector-s32-ref b 12 (endianness big)) => -3))

              (let ()
                (define b
                  (u8-list->bytevector
                    '(255 255 255 255 255 255 255 255
                       255 255 255 255 255 255 255 253)))

                (test (bytevector-u64-ref b 8 (endianness little))
                  => 18302628885633695743)

                (test (bytevector-s64-ref b 8 (endianness little))
                  => -144115188075855873)

                (test (bytevector-u64-ref b 8 (endianness big))
                  => 18446744073709551613)

                (test (bytevector-s64-ref b 8 (endianness big)) => -3))

              (let ()
                (define b1 (u8-list->bytevector '(255 2 254 3 255)))
                (define b2 (u8-list->bytevector '(255 3 254 2 255)))
                (define b3 (u8-list->bytevector '(255 3 254 2 255)))
                (define b4 (u8-list->bytevector '(255 3 255)))

                (test (bytevector=? b1 b2) => #f)
                (test (bytevector=? b2 b3) => #t)
                (test (bytevector=? b3 b4) => #f)
                (test (bytevector=? b4 b3) => #f))

              (let ()
                (define b
                  (u8-list->bytevector
                    '(63 240 0 0 0 0 0 0)))

                (test (bytevector-ieee-single-ref b 4 'little) => 0.0)

                (test (bytevector-ieee-double-ref b 0 'big) => 1.0)

                (bytevector-ieee-single-native-set! b 4 3.0)

                (test (bytevector-ieee-single-native-ref b 4) => 3.0)

                (bytevector-ieee-double-native-set! b 0 5.0)

                (test (bytevector-ieee-double-native-ref b 0) => 5.0)

                (bytevector-ieee-double-set! b 0 1.75 'big)

                (test (bytevector->u8-list b) => (63 252 0 0 0 0 0 0)))

              (let ((b (make-bytevector 7 12)))
                (bytevector-fill! b 127)
                (test (bytevector->u8-list b) => (127 127 127 127 127 127 127)))

              (let ((b (u8-list->bytevector '(1 2 3 4 5 6 7 8))))
                (bytevector-copy! b 0 b 3 4)
                (test (bytevector->u8-list b) => (1 2 3 1 2 3 4 8))
                (test (bytevector=? b (bytevector-copy b)) => #t))

              (let ((b (u8-list->bytevector '(1 2 3 255 1 2 1 2))))
                (test (bytevector->sint-list b (endianness little) 2)
                  => (513 -253 513 513))
                (test (bytevector->uint-list b (endianness little) 2)
                  => (513 65283 513 513))))

            (define (ieee-bytevector-tests)

              (define (roundtrip x getter setter! k endness)
                (let ((b (make-bytevector 100)))
                  (setter! b k x endness)
                  (getter b k endness)))

              (define (->single x)
                (roundtrip
                  x bytevector-ieee-single-ref bytevector-ieee-single-set! 0 'big))

              (define (->double x)
                (roundtrip
                  x bytevector-ieee-double-ref bytevector-ieee-double-set! 0 'big))

              ; Single precision, offset 0, big-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 0 'big)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 0 'big)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-single-ref bytevector-ieee-single-set!
                               0 'big)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 0 'big)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 0 'big)
                => -0.2822580337524414)

              ; Single precision, offset 0, little-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 0 'little)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 0 'little)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-single-ref bytevector-ieee-single-set!
                               0 'little)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 0 'little)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 0 'little)
                => -0.2822580337524414)

              ; Single precision, offset 1, big-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 1 'big)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 1 'big)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-single-ref bytevector-ieee-single-set!
                               1 'big)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 1 'big)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 1 'big)
                => -0.2822580337524414)

              ; Single precision, offset 1, little-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 1 'little)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 1 'little)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-single-ref bytevector-ieee-single-set!
                               1 'little)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 1 'little)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 1 'little)
                => -0.2822580337524414)

              ; Single precision, offset 2, big-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 2 'big)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 2 'big)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-single-ref bytevector-ieee-single-set!
                               2 'big)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 2 'big)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 2 'big)
                => -0.2822580337524414)

              ; Single precision, offset 2, little-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 2 'little)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 2 'little)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-single-ref bytevector-ieee-single-set!
                               2 'little)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 2 'little)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 2 'little)
                => -0.2822580337524414)

              ; Single precision, offset 3, big-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 3 'big)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 3 'big)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-single-ref bytevector-ieee-single-set!
                               3 'big)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 3 'big)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 3 'big)
                => -0.2822580337524414)

              ; Single precision, offset 3, little-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 3 'little)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 3 'little)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-single-ref bytevector-ieee-single-set!
                               3 'little)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 3 'little)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-single-ref bytevector-ieee-single-set! 3 'little)
                => -0.2822580337524414)

              ; Double precision, offset 0, big-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 0 'big)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 0 'big)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-double-ref bytevector-ieee-double-set!
                               0 'big)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 0 'big)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 0 'big)
                => -0.2822580337524414)

              ; Double precision, offset 0, little-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 0 'little)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 0 'little)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-double-ref bytevector-ieee-double-set!
                               0 'little)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 0 'little)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 0 'little)
                => -0.2822580337524414)

              ; Double precision, offset 1, big-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 1 'big)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 1 'big)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-double-ref bytevector-ieee-double-set!
                               1 'big)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 1 'big)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 1 'big)
                => -0.2822580337524414)

              ; Double precision, offset 1, little-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 1 'little)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 1 'little)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-double-ref bytevector-ieee-double-set!
                               1 'little)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 1 'little)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 1 'little)
                => -0.2822580337524414)

              ; Double precision, offset 2, big-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 2 'big)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 2 'big)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-double-ref bytevector-ieee-double-set!
                               2 'big)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 2 'big)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 2 'big)
                => -0.2822580337524414)

              ; Double precision, offset 2, little-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 2 'little)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 2 'little)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-double-ref bytevector-ieee-double-set!
                               2 'little)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 2 'little)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 2 'little)
                => -0.2822580337524414)

              ; Double precision, offset 3, big-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 3 'big)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 3 'big)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-double-ref bytevector-ieee-double-set!
                               3 'big)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 3 'big)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 3 'big)
                => -0.2822580337524414)

              ; Double precision, offset 3, little-endian

              (test (roundtrip
                      +inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 3 'little)
                => +inf.0)

              (test (roundtrip
                      -inf.0
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 3 'little)
                => -inf.0)

              (test (let ((x (roundtrip
                               +nan.0
                               bytevector-ieee-double-ref bytevector-ieee-double-set!
                               3 'little)))
                      (= x x))
                => #f)

              (test (roundtrip
                      1e10
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 3 'little)
                => 1e10)

              (test (roundtrip
                      -0.2822580337524414
                      bytevector-ieee-double-ref bytevector-ieee-double-set! 3 'little)
                => -0.2822580337524414)

              ; Denormalized numbers.

              (do ((x (expt .5 100) (* .5 x)))
                ((= x 0.0))
                (let ((y (->single x)))
                  (test (or (= y 0.0) (= x y)) => #t)))

              (do ((x (expt .5 100) (* .5 x)))
                ((= x 0.0))
                (let ((y (->double x)))
                  (test (= x y) => #t))))

            (define (string-bytevector-tests)

              ; rkd: rewrote to support for our test infrastructure
              (define-syntax test-roundtrip
                (syntax-rules ()
                  [(_ bvec tostring tobvec)
                   (let* ((s1 (tostring bvec))
                          (b2 (tobvec s1))
                          (s2 (tostring b2)))
                     (test (string=? s1 s2) => #t))]))

              (define random
                (letrec ((random14
                           (lambda (n)
                             (set! x (remainder (+ (* a x) c) (+ m 1)))
                             (remainder (quotient x 8) n)))
                         (a 701)
                         (x 1)
                         (c 743483)
                         (m 524287)
                         (loop
                           (lambda (q r n)
                             (if (zero? q)
                                 (remainder r n)
                                 (loop (quotient q 16384)
                                   (+ (* 16384 r) (random14 16384))
                                   n)))))
                  (lambda (n)
                    (if (< n 16384)
                        (random14 n)
                        (loop (quotient n 16384) (random14 16384) n)))))

              ; Returns a random bytevector of length up to n.

              (define (random-bytevector n)
                (let* ((n (random n))
                       (bv (make-bytevector n)))
                  (do ((i 0 (+ i 1)))
                    ((= i n) bv)
                    (bytevector-u8-set! bv i (random 256)))))

              ; Returns a random bytevector of even length up to n.

              (define (random-bytevector2 n)
                (let* ((n (random n))
                       (n (if (odd? n) (+ n 1) n))
                       (bv (make-bytevector n)))
                  (do ((i 0 (+ i 1)))
                    ((= i n) bv)
                    (bytevector-u8-set! bv i (random 256)))))

              ; Returns a random bytevector of multiple-of-4 length up to n.

              (define (random-bytevector4 n)
                (let* ((n (random n))
                       (n (* 4 (round (/ n 4))))
                       (bv (make-bytevector n)))
                  (do ((i 0 (+ i 1)))
                    ((= i n) bv)
                    (bytevector-u8-set! bv i (random 256)))))

              (test (bytevector=? (string->utf8 "k\x007f;\x0080;\x07ff;\x0800;\xffff;")
                      '#vu8(#x6b
                             #x7f
                             #b11000010 #b10000000
                             #b11011111 #b10111111
                             #b11100000 #b10100000 #b10000000
                             #b11101111 #b10111111 #b10111111))
                => #t)

              (test (bytevector=? (string->utf8 "\x010000;\x10ffff;")
                      '#vu8(#b11110000 #b10010000 #b10000000 #b10000000
                             #b11110100 #b10001111 #b10111111 #b10111111))
                => #t)

              (test (string=? (utf8->string '#vu8(#x61                             ; a
                                                   #xc0 #x62                        ; ?b
                                                   #xc1 #x63                        ; ?c
                                                   #xc2 #x64                        ; ?d
                                                   #x80 #x65                        ; ?e
                                                   #xc0 #xc0 #x66                   ; ??f
                                                   #xe0 #x67                        ; ?g
                                                   ))
                      "a\xfffd;b\xfffd;c\xfffd;d\xfffd;e\xfffd;\xfffd;f\xfffd;g")
                => #t)

              #; ; rkd: implementation dependent number of replacement characters
              (test (string=? (utf8->string '#vu8(#xe0 #x80 #x80 #x68              ; ???h
                                                   #xe0 #xc0 #x80 #x69              ; ???i
                                                   #xf0 #x6a                        ; ?j
                                                   ))
                      "\xfffd;\xfffd;\xfffd;h\xfffd;\xfffd;\xfffd;i\xfffd;j")
                => #t)

              #; ; rkd: implementation dependent number of replacement characters
              (test (string=? (utf8->string '#vu8(#x61                             ; a
                                                   #xf0 #x80 #x80 #x80 #x62         ; ????b
                                                   #xf0 #x90 #x80 #x80 #x63         ; .c
                                                   ))
                      "a\xfffd;\xfffd;\xfffd;\xfffd;b\x10000;c")
                => #t)

              (test (string=? (utf8->string '#vu8(#x61                             ; a
                                                   #xf0 #xbf #xbf #xbf #x64         ; .d
                                                   #xf0 #xbf #xbf #x65              ; ?e
                                                   #xf0 #xbf #x66                   ; ?f
                                                   ))
                      "a\x3ffff;d\xfffd;e\xfffd;f")
                => #t)

              #; ; rkd: implementation dependent number of replacement characters
              (test (string=? (utf8->string '#vu8(#x61                             ; a
                                                   #xf4 #x8f #xbf #xbf #x62         ; .b
                                                   #xf4 #x90 #x80 #x80 #x63         ; ????c
                                                   ))

                      "a\x10ffff;b\xfffd;\xfffd;\xfffd;\xfffd;c")
                => #t)

              (test (string=? (utf8->string '#vu8(#x61                             ; a
                                                   #xf5 #x80 #x80 #x80 #x64         ; ????d
                                                   ))

                      "a\xfffd;\xfffd;\xfffd;\xfffd;d")
                => #t)

              ; ignores BOM signature

              (test (string=? (utf8->string '#vu8(#xef #xbb #xbf #x61 #x62 #x63 #x64))
                      "abcd")
                => #t)

              (test-roundtrip (random-bytevector 10) utf8->string string->utf8)

              (do ((i 0 (+ i 1)))
                ((= i *random-stress-tests*))
                (test-roundtrip (random-bytevector *random-stress-test-max-size*)
                  utf8->string string->utf8))

              (test (bytevector=? (string->utf16 "k\x007f;\x0080;\x07ff;\x0800;\xffff;")
                      '#vu8(#x00 #x6b
                             #x00 #x7f
                             #x00 #x80
                             #x07 #xff
                             #x08 #x00
                             #xff #xff))
                => #t)

              (test (bytevector=? (string->utf16 "k\x007f;\x0080;\x07ff;\x0800;\xffff;"
                                    'little)
                      '#vu8(#x6b #x00
                             #x7f #x00
                             #x80 #x00
                             #xff #x07
                             #x00 #x08
                             #xff #xff))
                => #t)

              (test (bytevector=? (string->utf16 "\x010000;\xfdcba;\x10ffff;")
                      '#vu8(#xd8 #x00 #xdc #x00
                             #xdb #xb7 #xdc #xba
                             #xdb #xff #xdf #xff))
                => #t)

              (test (bytevector=? (string->utf16 "\x010000;\xfdcba;\x10ffff;" 'little)
                      '#vu8(#x00 #xd8 #x00 #xdc
                             #xb7 #xdb #xba #xdc
                             #xff #xdb #xff #xdf))
                => #t)

              (test (bytevector=? (string->utf16 "ab\x010000;\xfdcba;\x10ffff;cd")
                      (string->utf16 "ab\x010000;\xfdcba;\x10ffff;cd" 'big))
                => #t)

              #; ; rkd: utf16->string requires endianness argument
              (test (string=? "k\x007f;\x0080;\x07ff;\x0800;\xffff;"
                      (utf16->string
                        '#vu8(#x00 #x6b
                               #x00 #x7f
                               #x00 #x80
                               #x07 #xff
                               #x08 #x00
                               #xff #xff)))
                => #t)

              (test (string=? "k\x007f;\x0080;\x07ff;\x0800;\xffff;"
                      (utf16->string
                        '#vu8(#x00 #x6b
                               #x00 #x7f
                               #x00 #x80
                               #x07 #xff
                               #x08 #x00
                               #xff #xff)
                        'big))
                => #t)

              #; ; rkd: utf16->string requires endianness argument
              (test (string=? "k\x007f;\x0080;\x07ff;\x0800;\xffff;"
                      (utf16->string
                        '#vu8(#xfe #xff     ; big-endian BOM
                               #x00 #x6b
                               #x00 #x7f
                               #x00 #x80
                               #x07 #xff
                               #x08 #x00
                               #xff #xff)))
                => #t)

              (test (string=? "k\x007f;\x0080;\x07ff;\x0800;\xffff;"
                      (utf16->string
                        '#vu8(#x6b #x00
                               #x7f #x00
                               #x80 #x00
                               #xff #x07
                               #x00 #x08
                               #xff #xff)
                        'little))
                => #t)

              #; ; rkd: utf16->string requires endianness argument
              (test (string=? "k\x007f;\x0080;\x07ff;\x0800;\xffff;"
                      (utf16->string
                        '#vu8(#xff #xfe     ; little-endian BOM
                               #x6b #x00
                               #x7f #x00
                               #x80 #x00
                               #xff #x07
                               #x00 #x08
                               #xff #xff)))
                => #t)

              (let ((tostring        utf16->string)
                    (tostring-big    (lambda (bv) (utf16->string bv 'big)))
                    (tostring-little (lambda (bv) (utf16->string bv 'little)))
                    (tobvec          string->utf16)
                    (tobvec-big      (lambda (s) (string->utf16 s 'big)))
                    (tobvec-little   (lambda (s) (string->utf16 s 'little))))

                (do ((i 0 (+ i 1)))
                  ((= i *random-stress-tests*))
                  #; ; rkd: utf16->string requires endianness argument
                  (test-roundtrip (random-bytevector2 *random-stress-test-max-size*)
                    tostring tobvec)
                  (test-roundtrip (random-bytevector2 *random-stress-test-max-size*)
                    tostring-big tobvec-big)
                  (test-roundtrip (random-bytevector2 *random-stress-test-max-size*)
                    tostring-little tobvec-little)))

              (test (bytevector=? (string->utf32 "abc")
                      '#vu8(#x00 #x00 #x00 #x61
                             #x00 #x00 #x00 #x62
                             #x00 #x00 #x00 #x63))
                => #t)

              (test (bytevector=? (string->utf32 "abc" 'big)
                      '#vu8(#x00 #x00 #x00 #x61
                             #x00 #x00 #x00 #x62
                             #x00 #x00 #x00 #x63))
                => #t)

              (test (bytevector=? (string->utf32 "abc" 'little)
                      '#vu8(#x61 #x00 #x00 #x00
                             #x62 #x00 #x00 #x00
                             #x63 #x00 #x00 #x00))
                => #t)

              #; ; rkd: utf32->string requires endianness argument
              (test (string=? "a\xfffd;b\xfffd;c\xfffd;d\xfffd;e"
                      (utf32->string
                        '#vu8(#x00 #x00 #x00 #x61
                               #x00 #x00 #xd9 #x00
                               #x00 #x00 #x00 #x62
                               #x00 #x00 #xdd #xab
                               #x00 #x00 #x00 #x63
                               #x00 #x11 #x00 #x00
                               #x00 #x00 #x00 #x64
                               #x01 #x00 #x00 #x65
                               #x00 #x00 #x00 #x65)))
                => #t)

              (test (string=? "a\xfffd;b\xfffd;c\xfffd;d\xfffd;e"
                      (utf32->string
                        '#vu8(#x00 #x00 #x00 #x61
                               #x00 #x00 #xd9 #x00
                               #x00 #x00 #x00 #x62
                               #x00 #x00 #xdd #xab
                               #x00 #x00 #x00 #x63
                               #x00 #x11 #x00 #x00
                               #x00 #x00 #x00 #x64
                               #x01 #x00 #x00 #x65
                               #x00 #x00 #x00 #x65)
                        'big))
                => #t)

              #; ; rkd: utf32->string requires endianness argument
              (test (string=? "a\xfffd;b\xfffd;c\xfffd;d\xfffd;e"
                      (utf32->string
                        '#vu8(#x00 #x00 #xfe #xff   ; big-endian BOM
                               #x00 #x00 #x00 #x61
                               #x00 #x00 #xd9 #x00
                               #x00 #x00 #x00 #x62
                               #x00 #x00 #xdd #xab
                               #x00 #x00 #x00 #x63
                               #x00 #x11 #x00 #x00
                               #x00 #x00 #x00 #x64
                               #x01 #x00 #x00 #x65
                               #x00 #x00 #x00 #x65)))
                => #t)

              (test (string=? "\xfeff;a\xfffd;b\xfffd;c\xfffd;d\xfffd;e"
                      (utf32->string
                        '#vu8(#x00 #x00 #xfe #xff   ; big-endian BOM
                               #x00 #x00 #x00 #x61
                               #x00 #x00 #xd9 #x00
                               #x00 #x00 #x00 #x62
                               #x00 #x00 #xdd #xab
                               #x00 #x00 #x00 #x63
                               #x00 #x11 #x00 #x00
                               #x00 #x00 #x00 #x64
                               #x01 #x00 #x00 #x65
                               #x00 #x00 #x00 #x65)
                        'big
                        ; rkd: added endianness-manditory? flag
                        #t))
                => #t)

              (test (string=? "a\xfffd;b\xfffd;c\xfffd;d\xfffd;e"
                      (utf32->string
                        '#vu8(#x61 #x00 #x00 #x00
                               #x00 #xd9 #x00 #x00
                               #x62 #x00 #x00 #x00
                               #xab #xdd #x00 #x00
                               #x63 #x00 #x00 #x00
                               #x00 #x00 #x11 #x00
                               #x64 #x00 #x00 #x00
                               #x65 #x00 #x00 #x01
                               #x65 #x00 #x00 #x00)
                        'little))
                => #t)

              #; ; rkd: utf32->string requires endianness argument
              (test (string=? "a\xfffd;b\xfffd;c\xfffd;d\xfffd;e"
                      (utf32->string
                        '#vu8(#xff #xfe #x00 #x00   ; little-endian BOM
                               #x61 #x00 #x00 #x00
                               #x00 #xd9 #x00 #x00
                               #x62 #x00 #x00 #x00
                               #xab #xdd #x00 #x00
                               #x63 #x00 #x00 #x00
                               #x00 #x00 #x11 #x00
                               #x64 #x00 #x00 #x00
                               #x65 #x00 #x00 #x01
                               #x65 #x00 #x00 #x00)))
                => #t)

              (test (string=? "\xfeff;a\xfffd;b\xfffd;c\xfffd;d\xfffd;e"
                      (utf32->string
                        '#vu8(#xff #xfe #x00 #x00   ; little-endian BOM
                               #x61 #x00 #x00 #x00
                               #x00 #xd9 #x00 #x00
                               #x62 #x00 #x00 #x00
                               #xab #xdd #x00 #x00
                               #x63 #x00 #x00 #x00
                               #x00 #x00 #x11 #x00
                               #x64 #x00 #x00 #x00
                               #x65 #x00 #x00 #x01
                               #x65 #x00 #x00 #x00)
                        'little
                        ; rkd: added endianness-manditory? flag
                        #t))
                => #t)

              (let ((tostring        utf32->string)
                    (tostring-big    (lambda (bv) (utf32->string bv 'big)))
                    (tostring-little (lambda (bv) (utf32->string bv 'little)))
                    (tobvec          string->utf32)
                    (tobvec-big      (lambda (s) (string->utf32 s 'big)))
                    (tobvec-little   (lambda (s) (string->utf32 s 'little))))

                (do ((i 0 (+ i 1)))
                  ((= i *random-stress-tests*))
                  #; ; rkd: utf32->string requires endianness argument
                  (test-roundtrip (random-bytevector4 *random-stress-test-max-size*)
                    tostring tobvec)
                  (test-roundtrip (random-bytevector4 *random-stress-test-max-size*)
                    tostring-big tobvec-big)
                  (test-roundtrip (random-bytevector4 *random-stress-test-max-size*)
                    tostring-little tobvec-little)))

              )

            ; Tests string <-> bytevector conversion on strings
            ; that contain every Unicode scalar value.
            (define (exhaustive-string-bytevector-tests)

              ; Tests throughout an inclusive range.

              (define (test-char-range lo hi tostring tobytevector)
                (let* ((n (+ 1 (- hi lo)))
                       (s (make-string n))
                       (replacement-character (integer->char #xfffd)))
                  (do ((i lo (+ i 1)))
                    ((> i hi))
                    (let ((c (if (or (<= 0 i #xd7ff)
                                     (<= #xe000 i #x10ffff))
                                 (integer->char i)
                                 replacement-character)))
                      (string-set! s (- i lo) c)))
                  (test (string=? (tostring (tobytevector s)) s) => #t)))

              (define (test-exhaustively name tostring tobytevector)
                (display "Testing ")
                (display name)
                (display " conversions...")
                (newline)
                (test-char-range 0 #xffff tostring tobytevector)
                (test-char-range #x10000 #x1ffff tostring tobytevector)
                (test-char-range #x20000 #x2ffff tostring tobytevector)
                (test-char-range #x30000 #x3ffff tostring tobytevector)
                (test-char-range #x40000 #x4ffff tostring tobytevector)
                (test-char-range #x50000 #x5ffff tostring tobytevector)
                (test-char-range #x60000 #x6ffff tostring tobytevector)
                (test-char-range #x70000 #x7ffff tostring tobytevector)
                (test-char-range #x80000 #x8ffff tostring tobytevector)
                (test-char-range #x90000 #x9ffff tostring tobytevector)
                (test-char-range #xa0000 #xaffff tostring tobytevector)
                (test-char-range #xb0000 #xbffff tostring tobytevector)
                (test-char-range #xc0000 #xcffff tostring tobytevector)
                (test-char-range #xd0000 #xdffff tostring tobytevector)
                (test-char-range #xe0000 #xeffff tostring tobytevector)
                (test-char-range #xf0000 #xfffff tostring tobytevector)
                (test-char-range #x100000 #x10ffff tostring tobytevector))

              ; Feel free to replace this with your favorite timing macro.

              (define (timeit x) x)

              (timeit (test-exhaustively "UTF-8" utf8->string string->utf8))

              #; ; rkd: utf16->string requires endianness argument
              (timeit (test-exhaustively "UTF-16" utf16->string string->utf16))

              (timeit (test-exhaustively "UTF-16BE"
                        (lambda (bv) (utf16->string bv 'big))
                        (lambda (s) (string->utf16 s 'big))))

              (timeit (test-exhaustively "UTF-16LE"
                        (lambda (bv) (utf16->string bv 'little))
                        (lambda (s) (string->utf16 s 'little))))

              #; ; rkd: utf32->string requires endianness argument
              (timeit (test-exhaustively "UTF-32" utf32->string string->utf32))

              (timeit (test-exhaustively "UTF-32BE"
                        (lambda (bv) (utf32->string bv 'big))
                        (lambda (s) (string->utf32 s 'big))))

              (timeit (test-exhaustively "UTF-32LE"
                        (lambda (bv) (utf32->string bv 'little))
                        (lambda (s) (string->utf32 s 'little)))))

            (basic-bytevector-tests)
            (ieee-bytevector-tests)
            (string-bytevector-tests)
            (exhaustive-string-bytevector-tests)
            okay?)))
      'replace)
    #t)
  (begin
    (load "testfile-bytevector.ss")
    #t)
  (bytevector-refimpl-tests)
)

(mat tspl/csug-examples
  (equal? '#vu8(1 2 3) #vu8(1 2 3))
  (equal? #vu8(1 2 3) #vu8(1 2 3))
  (equal? #vu8(#x3f #x7f #xbf #xff) #vu8(63 127 191 255))
  (equal? (endianness little) 'little)
  (equal? (endianness big) 'big)
  (error? (endianness "spam"))
  (equal? (symbol? (native-endianness)) #t)
  (equal? (bytevector? #vu8()) #t)
  (equal? (bytevector? '#()) #f)
  (equal? (bytevector? "abc") #f)
  (equal? (bytevector) #vu8())
  (equal? (bytevector 1 3 5) #vu8(1 3 5))
  (equal? (bytevector -1 -3 -5) #vu8(255 253 251))
  (equal? (make-bytevector 0) #vu8())
  (equal? (make-bytevector 0 7) #vu8())
  (equal? (make-bytevector 5 7) #vu8(7 7 7 7 7))
  (equal? (make-bytevector 5 -7) #vu8(249 249 249 249 249))
  (equal? (bytevector-length #vu8()) 0)
  (equal? (bytevector-length #vu8(1 2 3)) 3)
  (equal? (bytevector-length (make-bytevector 300)) 300)
  (equal? (bytevector=? #vu8() #vu8()) #t)
  (equal? (bytevector=? (make-bytevector 3 0) #vu8(0 0 0)) #t)
  (equal? (bytevector=? (make-bytevector 5 0) #vu8(0 0 0)) #f)
  (equal? (bytevector=? #vu8(1 127 128 255) #vu8(255 128 127 1)) #f)
  (equal?
    (let ([v (make-bytevector 6)])
      (bytevector-fill! v 255)
      v)
    #vu8(255 255 255 255 255 255))
  
  (equal?
    (let ([v (make-bytevector 6)])
      (bytevector-fill! v -128)
      v)
    #vu8(128 128 128 128 128 128))
  (equal? (bytevector-copy #vu8(1 127 128 255)) #vu8(1 127 128 255))
  
  (equal?
    (let ([v #vu8(1 127 128 255)])
      (eq? v (bytevector-copy v)))
    #f)
  (begin
    (define $v1 #vu8(31 63 95 127 159 191 223 255))
    (define $v2 (make-bytevector 10 0))
    (bytevector-copy! $v1 2 $v2 1 4)
    (equal? $v2 #vu8(0 95 127 159 191 0 0 0 0 0)))
   
  (begin
    (bytevector-copy! $v1 5 $v2 7 3)
    (equal? $v2 #vu8(0 95 127 159 191 0 0 191 223 255)))
   
  (begin
    (bytevector-copy! $v2 3 $v2 0 6)
    (equal? $v2 #vu8(159 191 0 0 191 223 0 191 223 255)))
   
  (begin
    (bytevector-copy! $v2 0 $v2 1 9)
    (equal? $v2 #vu8(159 159 191 0 0 191 223 0 191 223)))

  (equal? (bytevector-u8-ref #vu8(1 127 128 255) 0) 1)
  (equal? (bytevector-u8-ref #vu8(1 127 128 255) 2) 128)
  (equal? (bytevector-u8-ref #vu8(1 127 128 255) 3) 255)
  (equal? (bytevector-s8-ref #vu8(1 127 128 255) 0) 1)
  (equal? (bytevector-s8-ref #vu8(1 127 128 255) 1) 127)
  (equal? (bytevector-s8-ref #vu8(1 127 128 255) 2) -128)
  (equal? (bytevector-s8-ref #vu8(1 127 128 255) 3) -1)
  (equal?
    (let ([v (make-bytevector 5 -1)])
      (bytevector-u8-set! v 2 128)
      v)
    #vu8(255 255 128 255 255))
  (equal?
    (let ([v (make-bytevector 4 0)])
      (bytevector-s8-set! v 1 100)
      (bytevector-s8-set! v 2 -100)
      v)
    #vu8(0 100 156 0))
  (equal? (bytevector->u8-list (make-bytevector 0)) '())
  (equal? (bytevector->u8-list #vu8(1 127 128 255)) '(1 127 128 255))
  
  (equal?
    (let ([v #vu8(1 2 3 255)])
      (apply * (bytevector->u8-list v)))
    1530)
  
  (equal? (bytevector->s8-list (make-bytevector 0)) '())
  (equal? (bytevector->s8-list #vu8(1 127 128 255)) '(1 127 -128 -1))
  
  (equal?
    (let ([v #vu8(1 2 3 255)])
      (apply * (bytevector->s8-list v)))
    -6)
  (equal? (u8-list->bytevector '()) #vu8())
  (equal? (u8-list->bytevector '(1 127 128 255)) #vu8(1 127 128 255))
  
  (equal?
    (let ([v #vu8(1 2 3 4 5)])
      (let ([ls (bytevector->u8-list v)])
        (u8-list->bytevector (map * ls ls))))
    #vu8(1 4 9 16 25))
  
  (equal? (s8-list->bytevector '()) #vu8())
  (equal? (s8-list->bytevector '(1 127 -128 -1)) #vu8(1 127 128 255))
  
  (equal?
    (let ([v #vu8(1 2 3 4 5)])
      (let ([ls (bytevector->s8-list v)])
        (s8-list->bytevector (map - ls))))
    #vu8(255 254 253 252 251))
  (begin
    (define $v #vu8(#x12 #x34 #xfe #x56 #xdc #xba #x78 #x98))
    (bytevector? $v))
  
  (equal?
    (case (native-endianness)
      [(big)
       (list
         (equal? (bytevector-u16-native-ref $v 2) #xfe56)
         (equal? (bytevector-s16-native-ref $v 2) #x-1aa)
         (equal? (bytevector-s16-native-ref $v 6) #x7898)
  
         (equal? (bytevector-u32-native-ref $v 0) #x1234fe56)
         (equal? (bytevector-s32-native-ref $v 0) #x1234fe56)
         (equal? (bytevector-s32-native-ref $v 4) #x-23458768)
  
         (equal? (bytevector-u64-native-ref $v 0) #x1234fe56dcba7898)
         (equal? (bytevector-s64-native-ref $v 0) #x1234fe56dcba7898))]
      [(little)
       (list
         (equal? (bytevector-u16-native-ref $v 2) #x56fe)
         (equal? (bytevector-s16-native-ref $v 2) #x56fe)
         (equal? (bytevector-s16-native-ref $v 6) #x-6788)
  
         (equal? (bytevector-u32-native-ref $v 0) #x56fe3412)
         (equal? (bytevector-s32-native-ref $v 0) #x56fe3412)
         (equal? (bytevector-s32-native-ref $v 4) #x-67874524)
  
         (equal? (bytevector-u64-native-ref $v 0) #x9878badc56fe3412)
         (equal? (bytevector-s64-native-ref $v 0) #x-67874523a901cbee))]
      [else (errorf #f "mat does not handle endianness ~s" (native-endianness))])
    '(#t #t #t #t #t #t #t #t))

  (let ()
    (define v (make-bytevector 8 0))
    (bytevector-u16-native-set! v 0 #xfe56)
    (bytevector-s16-native-set! v 2 #x-1aa)
    (bytevector-s16-native-set! v 4 #x7898)
    (case (native-endianness)
      [(big) (equal? v #vu8(#xfe #x56 #xfe #x56 #x78 #x98 #x00 #x00))]
      [(little) (equal? v #vu8(#x56 #xfe #x56 #xfe #x98 #x78 #x00 #x00))]
      [else (errorf #f "mat does not handle endianness ~s" (native-endianness))]))
  
  (let ()
    (define v (make-bytevector 16 0))
    (bytevector-u32-native-set! v 0 #x1234fe56)
    (bytevector-s32-native-set! v 4 #x1234fe56)
    (bytevector-s32-native-set! v 8 #x-23458768)
    (case (native-endianness)
      [(big) (equal? v #vu8(#x12 #x34 #xfe #x56 #x12 #x34 #xfe #x56
                            #xdc #xba #x78 #x98 #x00 #x00 #x00 #x00))]
      [(little) (equal? v #vu8(#x56 #xfe #x34 #x12 #x56 #xfe #x34 #x12
                               #x98 #x78 #xba #xdc #x00 #x00 #x00 #x00))]
      [else (errorf #f "mat does not handle endianness ~s" (native-endianness))]))
  
  (let ()
    (define v (make-bytevector 24 0))
    (bytevector-u64-native-set! v 0 #x1234fe56dcba7898)
    (bytevector-s64-native-set! v 8 #x1234fe56dcba7898)
    (bytevector-s64-native-set! v 16 #x-67874523a901cbee)
    (case (native-endianness)
      [(big) (equal? v #vu8(#x12 #x34 #xfe #x56 #xdc #xba #x78 #x98
                            #x12 #x34 #xfe #x56 #xdc #xba #x78 #x98
                            #x98 #x78 #xba #xdc #x56 #xfe #x34 #x12))]
      [(little) (equal? v #vu8(#x98 #x78 #xba #xdc #x56 #xfe #x34 #x12
                               #x98 #x78 #xba #xdc #x56 #xfe #x34 #x12
                               #x12 #x34 #xfe #x56 #xdc #xba #x78 #x98))]
      [else (errorf #f "mat does not handle endianness ~s" (native-endianness))]))

  (begin
    (define $v #vu8(#x12 #x34 #xfe #x56 #xdc #xba #x78 #x98 #x9a #x76))
    (bytevector? $v))
  (equal? (bytevector-u16-ref $v 0 (endianness big)) #x1234)
  (equal? (bytevector-s16-ref $v 1 (endianness big)) #x34fe)
  (equal? (bytevector-s16-ref $v 5 (endianness big)) #x-4588)
  
  (equal? (bytevector-u32-ref $v 2 'big) #xfe56dcba)
  (equal? (bytevector-s32-ref $v 3 'big) #x56dcba78)
  (equal? (bytevector-s32-ref $v 4 'big) #x-23458768)
  
  (equal? (bytevector-u64-ref $v 0 'big) #x1234fe56dcba7898)
  (equal? (bytevector-s64-ref $v 1 'big) #x34fe56dcba78989a)
  
  (equal? (bytevector-u16-ref $v 0 (endianness little)) #x3412)
  (equal? (bytevector-s16-ref $v 1 (endianness little)) #x-1cc)
  (equal? (bytevector-s16-ref $v 5 (endianness little)) #x78ba)
  
  (equal? (bytevector-u32-ref $v 2 'little) #xbadc56fe)
  (equal? (bytevector-s32-ref $v 3 'little) #x78badc56)
  (equal? (bytevector-s32-ref $v 4 'little) #x-67874524)
  
  (equal? (bytevector-u64-ref $v 0 'little) #x9878badc56fe3412)
  (equal? (bytevector-s64-ref $v 1 'little) #x-6567874523a901cc)

  (let ()
    (define v (make-bytevector 8 0))
    (bytevector-u16-set! v 0 #xfe56 (endianness big))
    (bytevector-s16-set! v 3 #x-1aa (endianness little))
    (bytevector-s16-set! v 5 #x7898 (endianness big))
    (equal? v #vu8(#xfe #x56 #x0 #x56 #xfe #x78 #x98 #x0)))
  
  (let ()
    (define v (make-bytevector 16 0))
    (bytevector-u32-set! v 0 #x1234fe56 'little)
    (bytevector-s32-set! v 6 #x1234fe56 'big)
    (bytevector-s32-set! v 11 #x-23458768 'little)
    (equal? v #vu8(#x56 #xfe #x34 #x12 #x0 #x0
                   #x12 #x34 #xfe #x56 #x0
                   #x98 #x78 #xba #xdc #x0)))
  
  (let ()
    (define v (make-bytevector 28 0))
    (bytevector-u64-set! v 0 #x1234fe56dcba7898 'little)
    (bytevector-s64-set! v 10 #x1234fe56dcba7898 'big)
    (bytevector-s64-set! v 19 #x-67874523a901cbee 'big)
    (equal? v #vu8(#x98 #x78 #xba #xdc #x56 #xfe #x34 #x12 #x0 #x0
               #x12 #x34 #xfe #x56 #xdc #xba #x78 #x98 #x0
               #x98 #x78 #xba #xdc #x56 #xfe #x34 #x12 #x0)))

  (let ()
    (define v #vu8(#x12 #x34 #xfe #x56 #xdc #xba #x78 #x98 #x9a #x76))
    (and
      (equal? (bytevector-uint-ref v 0 'big 1) #x12)
      (equal? (bytevector-uint-ref v 0 'little 1) #x12)
      (equal? (bytevector-uint-ref v 1 'big 3) #x34fe56)
      (equal? (bytevector-uint-ref v 2 'little 7) #x9a9878badc56fe)
  
      (equal? (bytevector-sint-ref v 2 'big 1) #x-02)
      (equal? (bytevector-sint-ref v 1 'little 6) #x78badc56fe34)
      (equal? (bytevector-sint-ref v 2 'little 7) #x-6567874523a902)
  
      (equal? (bytevector-sint-ref (make-bytevector 1000 -1) 0 'big 1000) -1)))

  (let ()
    (define v (make-bytevector 5 0))
    (bytevector-uint-set! v 1 #x123456 (endianness big) 3)
    (equal? v #vu8(0 #x12 #x34 #x56 0)))
  
  (let ()
    (define v (make-bytevector 7 -1))
    (bytevector-sint-set! v 1 #x-8000000000 (endianness little) 5)
    (equal? v #vu8(#xff 0 0 0 0 #x80 #xff)))

  (equal? (bytevector->uint-list (make-bytevector 0) 'little 3) '())
  
  (equal?
    (let ([v #vu8(1 2 3 4 5 6)])
      (bytevector->uint-list v 'big 3))
    '(#x010203 #x040506))
  
  (equal?
    (let ([v (make-bytevector 80 -1)])
      (bytevector->sint-list v 'big 20))
    '(-1 -1 -1 -1))
  (equal? (uint-list->bytevector '() 'big 25) #vu8())
  (equal? (sint-list->bytevector '(0 -1) 'big 3) #vu8(0 0 0 #xff #xff #xff))
  
  (equal?
    (let ()
      (define (f size)
        (let ([ls (list (- (expt 2 (- (* 8 size) 1)))
                        (- (expt 2 (- (* 8 size) 1)) 1))])
          (sint-list->bytevector ls 'little size)))
      (f 6))
    #vu8(#x00 #x00 #x00 #x00 #x00 #x80 #xff #xff #xff #xff #xff #x7f))

  (begin
    (define $v (make-bytevector 8 0))
    (bytevector-ieee-single-native-set! $v 0 .125)
    (bytevector-ieee-single-native-set! $v 4 -3/2)
    (equal?
      (list
        (bytevector-ieee-single-native-ref $v 0)
        (bytevector-ieee-single-native-ref $v 4))
      '(0.125 -1.5)))
  
  (begin
    (bytevector-ieee-double-native-set! $v 0 1e23)
    (equal? (bytevector-ieee-double-native-ref $v 0) 1e23))

  (begin
    (define $v (make-bytevector 10 #xc7))
    (bytevector-ieee-single-set! $v 1 .125 'little)
    (bytevector-ieee-single-set! $v 6 -3/2 'big)
    (equal?
      (list
        (bytevector-ieee-single-ref $v 1 'little)
        (bytevector-ieee-single-ref $v 6 'big))
      '(0.125 -1.5)))
  (equal? $v #vu8(#xc7 #x0 #x0 #x0 #x3e #xc7 #xbf #xc0 #x0 #x0))
  
  (begin
    (bytevector-ieee-double-set! $v 1 1e23 'big)
    (equal? (bytevector-ieee-double-ref $v 1 'big) 1e23))
)

#;(mat bytevector-logical
 ; A reference implementation in scheme
  (begin
    (define $bytevector-blurp
      (lambda (f)
        (lambda (bv1 bv2)
          (let ([len1 (bytevector-length bv1)]
                [len2 (bytevector-length bv2)])
            (let ([len (max len1 len2)])
              (if (fx= len 0)
                  bv1
                  (let ([new (make-bytevector len)])
                    (define endianness 'big)
                    (define (uint-ref bv len)
                      (if (fx= len 0)
                          0
                          (bytevector-uint-ref bv 0 endianness len)))
                    (bytevector-uint-set! new 0
                      (f (uint-ref bv1 len1) (uint-ref bv2 len2))
                      endianness len)
                    new)))))))

    (define $bytevector-and ($bytevector-blurp bitwise-and))

    (define $bytevector-ior ($bytevector-blurp bitwise-ior))

    (define $bytevector-xor ($bytevector-blurp bitwise-xor))
    
    (define $bytevector-not 
      (lambda (bv)
        (let ([len (bytevector-length bv)])
          (if (fx= len 0)
              bv
              (let ([new (make-bytevector len)])
                #;
                (bytevector-uint-set! new 0
                  (- (- (expt 256 len) 1)
                     (bytevector-uint-ref bv 0 (native-endianness) len))
                  (native-endianness) len)
                (bytevector-sint-set! new 0
                  (bitwise-not
                    (bytevector-sint-ref bv 0 (native-endianness) len))
                  (native-endianness) len)
                new)))))

    (define $make-random-bytevector
      (lambda (len)
        (let ([bv (make-bytevector len)])
          (do ([n len (- n 1)])
              ((zero? n) bv)
              (bytevector-u8-set! bv (- n 1) (random 256))))))

    #t)

 ; Currently the reference implementation is the only implemenation,
 ; so go ahead and use it for the tests and the random tests below.
  (define bytevector-and $bytevector-and)
  (define bytevector-ior $bytevector-ior)
  (define bytevector-xor $bytevector-xor)
  (define bytevector-not $bytevector-not)

  (error? (bytevector-not '#()))
  (error? (bytevector-not 75))
  (error? (bytevector-not #vu8(5) '#()))
  (error? (bytevector-not 75 #vu8(5)))
  (equal? (bytevector-not #vu8()) #vu8())
  (equal? (bytevector-not #vu8(23)) #vu8(232))
  (equal? (bytevector-not #vu8(23 129)) #vu8(232 126))
  (equal? (bytevector-not #vu8(23 129 99)) #vu8(232 126 156))
  (equal? (bytevector-not #vu8(#x7f #xff #xff #xff)) #vu8(128 0 0 0))
  (equal? (bytevector-not #vu8(#xff #xff #xff #xff)) #vu8(0 0 0 0))
  (equal?
    (bytevector-not #vu8(#x00 #x00 #x00 #x00))
    #vu8(#xff #xff #xff #xff))
  (equal? (bytevector-not #vu8(0 255 170 85)) #vu8(255 0 85 170))
  (equal?
    (bytevector-not #vu8(#x00 #x00 #x00 #x02))
    #vu8(#xff #xff #xff #xfd))
  (equal?
    (bytevector-not #vu8(#x0f #xff #xff #xff #xff #xff #xff #xff #xff #xff))
    #vu8(#xf0 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00))

  (error? (bytevector-and '#()))
  (error? (bytevector-and 75))
  (error? (bytevector-and #vu8(5) '#()))
  (error? (bytevector-and 75 #vu8(5)))
  (equal?
    (bytevector-and #vu8() #vu8())
    #vu8())
  (equal?
    (bytevector-and #vu8(#xff #xff #xff) #vu8(#x54 #x27 #x86))
    #vu8(#x54 #x27 #x86))
  (equal?
    (bytevector-and #vu8(#x00 #x00 #x00) #vu8(#x54 #x27 #x86))
    #vu8(#x00 #x00 #x00))
  (equal?
    (bytevector-and #vu8(#x65 #x33 #xf0) #vu8(#x54 #x27 #x86))
    #vu8(#x44 #x23 #x80))
  (equal?
    (bytevector-and #vu8(#x65 #x33 #xf0 #x75 #x83 #x99 #x41)
                    #vu8(#x54 #x27 #x86 #x99 #x87 #x76 #x63))
    #vu8(#x44 #x23 #x80 #x11 #x83 #x10 #x41))
  (equal?
    (bytevector-and #vu8(#x65 #x33 #xf0 #x75 #x83 #x99)
                    #vu8(#x54 #x27 #x86 #x99 #x87 #x76))
    #vu8(#x44 #x23 #x80 #x11 #x83 #x10))
  (equal?
    (bytevector-and #vu8(#x0 #x0 #x0 #x0) #vu8(#x0 #x0 #x0 #x0))
    #vu8(#x0 #x0 #x0 #x0))
  (equal?
    (bytevector-and #vu8(#xff #xff #xff #xff) #vu8(#x0 #x0 #x0 #x0))
    #vu8(#x0 #x0 #x0 #x0))
  (equal?
    (bytevector-and #vu8(#x0 #x0 #x0 #x0) #vu8(#xff #xff #xff #xff))
    #vu8(#x0 #x0 #x0 #x0))
  (equal?
    (bytevector-and #vu8(20) #vu8(0))
    #vu8(0))
  (equal?
    (bytevector-and #vu8(20) #vu8(#xff))
    #vu8(20))
  (equal?
    (bytevector-and #vu8(#x0f #xff #xff #xff #xff #xff #xff #xff #xff #xff)
                    #vu8(#xff #xff #xff #xff #xff #xff #xff #xff #xff #xff))
    #vu8(#x0f #xff #xff #xff #xff #xff #xff #xff #xff #xff))
  (equal?
    (bytevector-and #vu8(#x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11)
                    #vu8(#xff #xff #xff #xff #xff #xff #xff #xff #xff #xff))
    #vu8(#x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11))
  (equal?
    (bytevector-and
      #vu8(#x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11)
      #vu8(#x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22))
    #vu8(#x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00)) 
  (equal?
    (bytevector-and
      #vu8(#x12 #x12 #x12 #x12 #x12 #x12 #x12 #x12 #x12 #x12 #x12 #x12 #x12)
      #vu8(#x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22))
    #vu8(#x02 #x02 #x02 #x02 #x02 #x02 #x02 #x02 #x02 #x02 #x02 #x02 #x02))
  (equal?
    (bytevector-and
      #vu8(#x2 #xb2 #x25 #xd2 #x7f #x49 #xc1 #xfe #xd3 #x01 #xb8 #x91 #x03)
      #vu8(#x0 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x1f #x36 #x65 #x67))
    #vu8(#x0 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x01 #x30 #x01 #x03))
  (equal? 
    (bytevector-and
      #vu8(#x0 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x1f #x36 #x65 #x67)
      #vu8(#x2 #xb2 #x25 #xd2 #x7f #x49 #xc1 #xfe #xd3 #x01 #xb8 #x91 #x03))
    #vu8(#x0 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x01 #x30 #x01 #x03))
 ; different length bytevectors, how should they work?
  (equal?
    (bytevector-and
      #vu8(#x2 #xb2 #x25 #xd2 #x7f #x49 #xc1 #xfe #xd3 #x01 #xb8 #x91 #x03)
      #vu8(#x1f #x36 #x65 #x67))
    #vu8(#x0 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x01 #x30 #x01 #x03))
  (equal? 
    (bytevector-and
      #vu8(#x1f #x36 #x65 #x67)
      #vu8(#x2 #xb2 #x25 #xd2 #x7f #x49 #xc1 #xfe #xd3 #x01 #xb8 #x91 #x03))
    #vu8(#x0 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x01 #x30 #x01 #x03))

  (error? (bytevector-ior '#()))
  (error? (bytevector-ior 75))
  (error? (bytevector-ior #vu8(5) '#()))
  (error? (bytevector-ior 75 #vu8(5)))
  (equal? 
    (bytevector-ior #vu8() #vu8())
    #vu8())
  (equal?
    (bytevector-ior #vu8(0 0 0) #vu8(0 0 0))
    #vu8(0 0 0))
  (equal?
    (bytevector-ior #vu8(#xff #xff #xff #xff) #vu8(0 0 0 0))
    #vu8(#xff #xff #xff #xff))
  (equal?
    (bytevector-ior #vu8(0 0 0 0) #vu8(#xff #xff #xff #xff))
    #vu8(#xff #xff #xff #xff))
  (equal?
    (bytevector-ior #vu8(#xff #xff #xff) #vu8(#x54 #x27 #x86))
    #vu8(#xff #xff #xff))
  (equal?
    (bytevector-ior #vu8(#x00 #x00 #x00) #vu8(#x54 #x27 #x86))
    #vu8(#x54 #x27 #x86))
  (equal?
    (bytevector-ior #vu8(#x65 #x33 #xf0) #vu8(#x54 #x27 #x86))
    #vu8(#x75 #x37 #xf6))
  (equal?
    (bytevector-ior #vu8(#x65 #x33 #xf0 #x75 #x83 #x99 #x41)
                    #vu8(#x54 #x27 #x86 #x99 #x87 #x76 #x63))
    #vu8(#x75 #x37 #xf6 #xfd #x87 #xff #x63))
  (equal?
    (bytevector-ior #vu8(#x65 #x33 #xf0 #x75 #x83 #x99)
                    #vu8(#x54 #x27 #x86 #x99 #x87 #x76))
    #vu8(#x75 #x37 #xf6 #xfd #x87 #xff))
  (equal?
    (bytevector-ior #vu8(20) #vu8(#xff))
    #vu8(#xff))
  (equal? 
    (bytevector-ior
      #vu8(#x1 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11)
      #vu8(#x2 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22))
    #vu8(#x3 #x33 #x33 #x33 #x33 #x33 #x33 #x33 #x33 #x33 #x33 #x33 #x33))
  (equal?
    (bytevector-ior
      #vu8(#x1 #x21 #x21 #x21 #x21 #x21 #x21 #x21 #x21 #x21 #x21 #x21 #x21)
      #vu8(#x2 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22))
    #vu8(#x3 #x23 #x23 #x23 #x23 #x23 #x23 #x23 #x23 #x23 #x23 #x23 #x23))
  (equal?
    (bytevector-ior
      #vu8(#x2 #xb2 #x25 #xd2 #x7f #x49 #xc1 #xfe #xd3 #x01 #xb8 #x91 #x03)
      #vu8(#x0 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x1f #x36 #x65 #x67))
    #vu8(#x2 #xb2 #x25 #xd2 #x7f #x49 #xc1 #xfe #xd3 #x1f #xbe #xf5 #x67))
  (equal?
    (bytevector-ior
      #vu8(#x0 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x1f #x36 #x65 #x67)
      #vu8(#x2 #xb2 #x25 #xd2 #x7f #x49 #xc1 #xfe #xd3 #x01 #xb8 #x91 #x03))
    #vu8(#x2 #xb2 #x25 #xd2 #x7f #x49 #xc1 #xfe #xd3 #x1f #xbe #xf5 #x67))
 ; different size bytevectors how should the work?
  (equal?
    (bytevector-ior
      #vu8(#x2 #xb2 #x25 #xd2 #x7f #x49 #xc1 #xfe #xd3 #x01 #xb8 #x91 #x03)
      #vu8(#x1f #x36 #x65 #x67))
    #vu8(#x2 #xb2 #x25 #xd2 #x7f #x49 #xc1 #xfe #xd3 #x1f #xbe #xf5 #x67))
  (equal?
    (bytevector-ior
      #vu8(#x1f #x36 #x65 #x67)
      #vu8(#x2 #xb2 #x25 #xd2 #x7f #x49 #xc1 #xfe #xd3 #x01 #xb8 #x91 #x03))
    #vu8(#x2 #xb2 #x25 #xd2 #x7f #x49 #xc1 #xfe #xd3 #x1f #xbe #xf5 #x67))

  (error? (bytevector-xor '#()))
  (error? (bytevector-xor 75))
  (error? (bytevector-xor #vu8(5) '#()))
  (error? (bytevector-xor 75 #vu8(5)))
  (equal?
    (bytevector-xor #vu8() #vu8())
    #vu8())
  (equal?
    (bytevector-xor #vu8(#xff #xff #xff) #vu8(#x00 #x00 #x00))
    #vu8(#xff #xff #xff))
  (equal?
    (bytevector-xor #vu8(#x00 #x00 #x00) #vu8(#xff #xff #xff))
    #vu8(#xff #xff #xff))
  (equal?
    (bytevector-xor #vu8(#xff #xff #xff) #vu8(#xff #xff #xff))
    #vu8(#x00 #x00 #x00))
  (equal?
    (bytevector-xor #vu8(#x0f #x0f #x0f #x0f) #vu8(#xff #xff #xff #xff))
    #vu8(#xf0 #xf0 #xf0 #xf0))
  (equal?
    (bytevector-xor #vu8(#x00 #x14) #vu8(#xff #xff))
    #vu8(#xff #xeb))
  (equal?
    (bytevector-xor
      #vu8(#x1 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11 #x11)
      #vu8(#x2 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22))
    #vu8(#x3 #x33 #x33 #x33 #x33 #x33 #x33 #x33 #x33 #x33 #x33 #x33 #x33))
  (equal?
    (bytevector-xor
       #vu8(#x1 #x21 #x21 #x21 #x21 #x21 #x21 #x21 #x21 #x21 #x21 #x21 #x21)
       #vu8(#x2 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22 #x22))
    #vu8(#x3 #x03 #x03 #x03 #x03 #x03 #x03 #x03 #x03 #x03 #x03 #x03 #x03))
  (equal?
    (bytevector-xor
      #vu8(#x2 #xB2 #x25 #xD2 #x7F #x49 #xC1 #xFE #xD3 #x01 #xB8 #x91 #x03)
      #vu8(#x0 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x1F #x36 #x65 #x67))
    #vu8(#x2 #xB2 #x25 #xD2 #x7F #x49 #xC1 #xFE #xD3 #x1E #x8E #xF4 #x64))
  (equal?
    (bytevector-xor
      #vu8(#x0 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x00 #x1F #x36 #x65 #x67)
      #vu8(#x2 #xB2 #x25 #xD2 #x7F #x49 #xC1 #xFE #xD3 #x01 #xB8 #x91 #x03))
    #vu8(#x2 #xB2 #x25 #xD2 #x7F #x49 #xC1 #xFE #xD3 #x1E #x8E #xF4 #x64))
 ; different length bytevectors: how should they work?
   (equal?
    (bytevector-xor
      #vu8(#x2 #xB2 #x25 #xD2 #x7F #x49 #xC1 #xFE #xD3 #x01 #xB8 #x91 #x03)
      #vu8(#x1F #x36 #x65 #x67))
    #vu8(#x2 #xB2 #x25 #xD2 #x7F #x49 #xC1 #xFE #xD3 #x1E #x8E #xF4 #x64))
  (equal?
    (bytevector-xor
      #vu8(#x1F #x36 #x65 #x67)
      #vu8(#x2 #xB2 #x25 #xD2 #x7F #x49 #xC1 #xFE #xD3 #x01 #xB8 #x91 #x03))
    #vu8(#x2 #xB2 #x25 #xD2 #x7F #x49 #xC1 #xFE #xD3 #x1E #x8E #xF4 #x64))

 ; random tests
  (do ([n 1000 (fx- n 1)])
      ((fxzero? n) #t)
    (let ([size (random 30)])
      (let ([bv1 ($make-random-bytevector size)]
            [bv2 ($make-random-bytevector size)])
        (unless (equal? (bytevector-not bv1)
                        ($bytevector-not bv1))
          (errorf #f "bytevector-not failed on ~s" bv1))
        (unless (equal? (bytevector-and bv1 bv2)
                        ($bytevector-and bv1 bv2))
          (errorf #f "bytevector-and failed on ~s and ~s" bv1 bv2))
        (unless (equal? (bytevector-and bv2 bv1)
                        ($bytevector-and bv2 bv1))
          (errorf #f "bytevector-and failed on ~s and ~s" bv2 bv1))
        (unless (equal? (bytevector-and bv1 bv1)
                        ($bytevector-and bv1 bv1))
          (errorf #f "bytevector-and failed on ~s and ~s" bv1 bv1))
        (unless (equal? (bytevector-ior bv1 bv2)
                        ($bytevector-ior bv1 bv2))
          (errorf #f "bytevector-ior failed on ~s and ~s" bv1 bv2))
        (unless (equal? (bytevector-ior bv2 bv1)
                        ($bytevector-ior bv2 bv1))
          (errorf #f "bytevector-ior failed on ~s and ~s" bv2 bv1))
        (unless (equal? (bytevector-ior bv1 bv1)
                        ($bytevector-ior bv1 bv1))
          (errorf #f "bytevector-ior failed on ~s and ~s" bv1 bv1))
        (unless (equal? (bytevector-xor bv1 bv2)
                        ($bytevector-xor bv1 bv2))
          (errorf #f "bytevector-xor failed on ~s and ~s" bv1 bv2))
        (unless (equal? (bytevector-xor bv2 bv1)
                        ($bytevector-xor bv2 bv1))
          (errorf #f "bytevector-xor failed on ~s and ~s" bv2 bv1))
        (unless (equal? (bytevector-xor bv1 bv1)
                        ($bytevector-xor bv1 bv1))
          (errorf #f "bytevector-xor failed on ~s and ~s" bv1 bv1)))))
)
